leptin and Hypothyroidism

Hypothyroidism is a condition in which the serum levels of thyroid hormones are below that necessary to carry out physiological functions in the body. Hypothyroidism is related to obesity as an increase in body weight gain is seen in hypothyroid patients. Moreover, an inverse correlation between free thyroxine values and body mass index has been reported. Leptin, a polypeptide hormone produced by adipocytes, was originally thought to be an antiobesity hormone due its anorexic effects on hypothalamic appetite regulation. However, nowadays it is known that leptin conveys information about the nutritional status to the brain being considered a crucial endocrine factor for regulating several physiological processes including reproduction. Since the identification of thyroid hormone and leptin receptors on the testes, these hormones are being recognized as having important roles in male reproductive functions. A clear link exists among thyroid hormones, leptin and reproduction. Both hormones can negatively affect spermatogenesis and consequently may cause male infertility. The World Health Organization (WHO) estimates the overall prevalence of primary infertility ranging from 8 to 15%. The fact that 30% of couples' inability to conceive is related to a male factor and that the longer hypothyroidism persisted, the greater the damage to the testes, strongly suggest that more studies attempting to clarify both hormones actions directly in the testes need to be conducted specially in cases of congenital hypothyroidism. Therefore, the goal of this review is to highlight the relationship of such hormones in the reproductive system.

Topics: Animals; Humans; Hypothyroidism; Infertility, Male; Leptin; Male; Obesity; Reproduction; Thyroid Hormones

Obesity and thyroid diseases are common disorders in the general population and they frequently occur in single individuals. Alongside a chance association, a direct relationship between 'thyroid and obesity' has been hypothesized. Thyroid hormone is an important determinant of energy expenditure and contributes to appetite regulation, while hormones and cytokines from the adipose tissue act on the CNS to inform on the quantity of energy stores. A continuous interaction between the thyroid hormone and regulatory mechanisms localized in adipose tissue and brain is important for human body weight control and maintenance of optimal energy balance. Whether obesity has a pathogenic role in thyroid disease remains largely a matter of investigation. This review highlights the complexity in the identification of thyroid hormone deficiency in obese patients. Regardless of the importance of treating subclinical and overt hypothyroidism, at present there is no evidence to recommend pharmacological correction of the isolated hyperthyrotropinemia often encountered in obese patients. While thyroid hormones are not indicated as anti-obesity drugs, preclinical studies suggest that thyromimetic drugs, by targeting selected receptors, might be useful in the treatment of obesity and dyslipidemia.

Topics: Adipose Tissue; Animals; Anti-Obesity Agents; Autoimmunity; Body Weight; Energy Intake; Energy Metabolism; Feedback, Physiological; Feeding Behavior; Humans; Hypothyroidism; Leptin; North America; Obesity; Randomized Controlled Trials as Topic; Thyroid Gland; Thyroid Hormones; Thyroid Neoplasms; Thyroiditis, Autoimmune; Thyrotropin

In recent years researchers have become increasingly interested in the particular relation between the function of the thyroid gland and the body mass in the population of obese children. Numerous studies have been conducted and the literature on the related issues has been abounding. Several thereof have strived at pinpointing a significant link between the function of the thyroid axis and the body mass. Yet, it still remains to be clarified whether these subtle changes in the level of thyroid hormones and TSH observed in childhood obesity are responsible for the increased body mass or rather they represent a secondary phenomenon. The mechanism most often put forward by the researchers that links obesity to thyroid function is the increased level of leptin, which affects neurones in the hypothalamus and the thyroid axis causing TRH and TSH secretion. The body mass is positively correlated with serum leptin and elevated level of leptin is connected with an increase in TSH level. However, there is still controversy whether these inconspicuous differences observed in thyroid axis merit the treatment with thyroxine since these changes seem to constitute a consequence rather than a cause of obesity. Therefore, as most authors postulate, primary importance should be placed on lifestyle changes and body weight reduction leaving substitutive treatment as a supplementary option. The purpose of this review is to present the most current issues on child obesity and the related malfunction of the thyroid axis through an overview of international publications from the years 1996-2011.

Topics: Adipose Tissue; Child; Humans; Hypothyroidism; Leptin; Obesity; Risk Reduction Behavior; Thyrotropin; Thyroxine; Triiodothyronine

Obesity is associated with several endocrine diseases, including common ones such as hypothyroidism and polycystic ovarian syndrome to rare ones such as Cushing's syndrome, central hypothyroidism and hypothalamic disorders. The mechanisms for the development of obesity vary in according to the endocrine condition. Hypothyroidism is associated with accumulation of hyaluronic acid within various tissues, additional fluid retention due to reduced cardiac output and reduced thermogenesis. The pathophysiology of obesity associated with polycystic ovarian syndrome remains complex as obesity itself may simultaneously be the cause and the effect of the syndrome. Net excess of androgen appears to be pivotal in the development of central obesity. In Cushing's syndrome, an interaction with thyroid and growth hormones plays an important role in addition to an increased adipocyte differentiation and adipogenesis. This review also describes remaining rare cases: hypothalamic obesity due to central hypothyroidism and combined hormone deficiencies.

Topics: Catecholamines; Cushing Syndrome; Endocrine System Diseases; Female; Glucocorticoids; Humans; Hypothalamic Diseases; Hypothyroidism; Leptin; Male; Obesity; Polycystic Ovary Syndrome; Thyroid Function Tests; Triiodothyronine

While obesity has been historically considered a criteria to establish the diagnosis of hypothyroidism, the association between them is seldom encountered in patients. Nowadays the main metabolic criteria is the gain of weight in the presence of other symptoms of hypothyroidism. The large differences between the thermogenesis of hypothyroid and hyperthyroid patients underline the complex relationship of thyroid hormones and metabolic pathways. The treatment of a subclinical hypothyroidism has almost no influence on the body weight, whereas in more severe dysfunctions a weight loss is expected, usually less than 10% of body weight. Thereafter severe obesity may not be secondary to a thyroid failure.

Topics: Body Mass Index; Body Weight; Humans; Hypothyroidism; Leptin; Obesity; Thyrotropin; Thyroxine

Leptin, a satiety hormone is a protein produced by the adipose tissue that regulates appetite and energetic balance of the body. Results of investigations of serum leptin in patients with hyperthyroidism or hypothyroidism are controversial. Influence of thyroid hormones on leptin secretion is complex and partially unrecognized.

Topics: Adipose Tissue; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Thyroid Hormones

Thyroid hormones (TH) are potent modulators of adaptive thermogenesis and can potentially contribute to development of obesity. The decrease of T(3) in association with reduction of calorie intake is centrally regulated via decreases in leptin and melanocortin concentrations and peripherally via a decrease in deiodinase activity, all aimed at protein and energy sparing. The use of TH in the treatment of obesity is hardly justified except in cases of elevated thyrotropin (TSH) with low/normal T(3) and T(4) and/or a low T(3) or T'(3)/T(4) or a high TSH/T(3) ratio. TH treatment with small doses of T(3) can also be exceptionally applied in obese patients resistant to dietary therapy who are taking beta-adrenergic blockers or with obesity developed after cessation of cigarette smoking and with hyperlipidemia and a concomitant high thryrotropin/T(3) ratio. Supplementation with Se(2+) and Zn(2+) may be tried along with more severe calorie restriction to prevent decline of T(3).

Topics: Animals; Body Weight; Eating; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Models, Biological; Obesity; Thyroid Hormones

Topics: Animals; Body Composition; Carrier Proteins; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Mice; Proteins; Rats; Receptors, Cell Surface; Receptors, Leptin; Thyroid Diseases; Thyroid Gland; Thyroid Hormones

Though most of the observational studies have shown that metformin can reduce serum thyroid stimulating hormone (TSH) level in patients of hypothyroidism with diabetes or polycystic ovarian disease, randomised controlled trials are sparse. The primary objective of this study was to evaluate the effect of metformin on thyroid function tests (TSH, free T4, and free T3) in patients with subclinical hypothyroidism (SCH).. In this open label, parallel arm, randomised controlled trial, 60 patients of SCH (TSH 5.5-10 mIU/L) were randomised to either metformin group (1500 mg/day) or control group.. A total of 46 patients (23 in each group) completed the study and no significant difference in serum TSH, free T4 or free T3 was found in between the 2 groups. Neither there was any significant change in serum TSH, free T4 or free T3 (pre and post 6 months) within the individual groups. However, the rate of normalisation of serum TSH in patients with negative thyroid antibody was significantly higher than patients with positive thyroid antibody (71.4% vs. 18.8%; P = 0.026) in metformin group in post hoc analysis. Fasting plasma glucose, serum high-density lipoprotein and indices of insulin sensitivity significantly improved in metformin group. Four patients (17%) had mild gastrointestinal adverse effects in the metformin group.. We did not find any significant change in thyroid function test in patients with SCH with metformin therapy.

Topics: Adiponectin; Adult; Blood Glucose; Cholesterol; Female; Humans; Hypothyroidism; Insulin Resistance; Leptin; Male; Metformin; Middle Aged; Prolactin; Thyroid Function Tests; Thyrotropin; Thyroxine; Triiodothyronine

Subclinical hypothyroidism (SH) occurs when serum thyroid stimulating hormone (TSH) concentrations are raised and serum thyroid hormone concentrations are normal. The effect of SH on the proinflammatory adipose cytokine releasing visceral adipose tissue (VAT) is not clear. The aim of this study is to identify the difference between the pre and posttreatment levels of VAT, leptin, and resistin in SH patients.. There were 51 SH patients and 43 age- and gender-matched healthy subjects included in the study. Thyroid functions, biochemical tests, leptin, resistin, and visceral and subcutaneous fat measurements were made. The measurements were repeated in the SH group in the third month following L-thyroxin treatment.. Initially, high sensitivity C-reactive protein, carotid artery intima-media thickness (mm), leptin, and resistin levels were significantly higher in the SH group compared to the controls, while the other parameters were similar. While no correlation was observed between TSH levels and adipokines, a positive correlation was detected between waist circumference and leptin levels (r = 0.549, p < 0.01). Visceral adipose tissue was positively correlated to age, waist circumference, and leptin levels, but negatively correlated to free thyroxin (T4) levels (r = 0.419, p = 0.009; r = 0.794, p < 0.01; r = 0.515, p < 0.01 and r = - 0.416, p = 0.009, respectively). A significant decrease was observed in VAT volume, leptin, and resistin levels of SH patients following levothyroxine treatment. Conclusion The reduced VAT volume, leptin, and resistin levels in SH patients following treatment may support the idea that TSH affects adipose tissue functions.

Topics: Adult; Asymptomatic Diseases; Biomarkers; Female; Hormone Replacement Therapy; Humans; Hypothyroidism; Intra-Abdominal Fat; Leptin; Male; Reproducibility of Results; Resistin; Sensitivity and Specificity; Thyroxine; Treatment Outcome

The relationship between thyroid status, including subclinical hypothyroidism (SH) and serum leptin is controversial or uncertain. Therefore we evaluated serum leptin in SH and overt hypothyroidism (OH) and determined the effects of levothyroxine (LT(4)) replacement on serum leptin in these disorders.. Serum leptin, thyrotropin (TSH), free thyroxine, insulin, glucose, and body composition parameters were compared in 55 SH, 20 OH, and 28 euthyroid (EU) pre- and postmenopausal women. In addition, the effect of LT(4) treatment on serum leptin in SH and OH was assessed.. The mean +/- SD (median) serum leptin concentrations in the OH and SH groups were higher than in the EU group (35.1 +/- 27.2 [33.0] and 36.6 +/- 21.9 [30.6] ng/mL, respectively, vs. 23.2 +/- 19.3 [17.9] ng/mL, p = 0.011), but the difference was only significant in postmenopausal women. The body mass index (BMI), fat mass index (FMI), and the homeostasis model assessment-insulin resistance (HOMA-IR) index values were not different among these groups. In premenopausal women there was no correlation between leptin, BMI, or FMI and serum TSH levels (r(s) = 0.009, p = 0.474; r(s) = 0.043, p = 0.367; r(s) = 0.092, p = 0.232). In the postmenopausal women, the partial correlation coefficient between TSH and leptin was present, even when controlling for BMI (r(s) = 0.297, p = 0.042) and FMI (r(s) = 0.275, p = 0.050). LT(4) treatment was associated with a reduction of serum leptin concentrations in the OH group (p = 0.008). In SH group there were no differences between LT(4) replacement or no treatment, since a fall in serum leptin levels was detected in both SH subgroups, despite a more pronounced fall with LT(4) use. Treatment of the SH and OH groups with LT(4) did not influence HOMA-IR index or body composition.. Serum leptin concentrations are elevated in postmenopausal women with SH or OH. A relationship between thyroid status and serum leptin is further supported by the fact that LT(4) treatment, to restore the EU status, reduced serum leptin levels in OH in the absence of significant effects on BMI. In women, hypothyroidism influences either leptin secretion or degradation and this effect is more pronounced in postmenopausal than in premenopausal women.

Topics: Adult; Blood Glucose; Body Composition; Cross-Sectional Studies; Female; Hormone Replacement Therapy; Humans; Hypothyroidism; Insulin; Leptin; Middle Aged; Postmenopause; Premenopause; Prospective Studies; Thyrotropin; Thyroxine; Time Factors; Treatment Outcome

There are potentially complex interrelationships between thyroid function, leptin, ghrelin, body mass index (BMI), and percentage of body fat (%BF). The goal of this study was to determine if normalization of thyroid status in premenopausal women with hyperthyroidism and hypothyroidism would be associated with changes in serum leptin and ghrelin in the absence of thyroid dysfunction treatment-associated changes in BMI and %BF.. The study was carried out in 47 selected premenopausal women: 17 with hyperthyroidism, 11 with hypothyroidism, and 19 healthy individuals who constituted the control group. Patients with thyroid dysfunction were selected for study if their BMI and %BF did not change after treatment of thyroid dysfunction. Subjects in the control group were selected on the basis of the age, BMI, and the %BF characteristics of the patients with thyroid dysfunction. Concentrations of free thyroxine (fT4), free triiodothyronine (fT3), thyrotropin, leptin, and ghrelin in serum were determined before and after treatment of thyroid dysfunction and in the control group.. Serum leptin concentrations were similar in patients with hyperthyroidism and hypothyroidism before treatment and in normal subjects and did not change significantly after treatment of hyperthyroidism or hypothyroidism. Serum ghrelin concentrations were lower in patients with hyperthyroidism, and higher in patients with hypothyroidism than in the control group (hypothyroidism = 2345 (1157-7015) [median (range)], hyperthyroidism = 1205 (438-2914), control = 2398 (1542-4920), p < 0.05).. In premenopausal women with hyperthyroidism or hypothyroidism, treatment of thyroid dysfunction that is not associated with changes in BMI or %BF does not influence serum leptin but does affect serum ghrelin. Thyroid status itself, in the absence of alterations in the BMI and %BF, has an important influence on circulating ghrelin but not leptin.

Topics: Adolescent; Adult; Antithyroid Agents; Blood Pressure; Body Mass Index; Female; Ghrelin; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Methimazole; Middle Aged; Postmenopause; Thyroxine; Triiodothyronine

We investigated the possible correlation between the leptin concentration and the Zn/Cu ratio in the plasma of women with thyroid disorder. Forty women with hypothyroidism (n = 20) or hypothyroidism (n = 20) and 20 euthyroid controls were recruited. The results showed that the women with thyroid disorder (hypothyroidism or hyperthyroidism) had higher plasma leptin concentrations than the normal controls (p < 0.05). Moreover, the plasma leptin concentration had no correlation with plasma thyroid hormone levels in the separate groups, nor among all the participants considered together. A strong correlation (p < 0.005) between leptin and adiposity was only observed in euthyroid women. Plasma values of Zn and Cu and the Zn/Cu ratio were not markedly different among women with altered thyroid status. However, a weak correlation (r = 0.28, p = 0.032) between leptin and the Zn/Cu ratio was found from the pooled data of all participants and retained after adjustment for adiposity. We suggest that there may exist an interaction between the plasma leptin level and thyroid hormone-induced abnormality for selected minerals.

Topics: Adult; Body Composition; Copper; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Thyroid Diseases; Zinc

To determine if serum leptin levels are affected by thyroid dysfunction, we measured its concentration in serum samples from 25 euthyroid controls and 25 subjects each with hypothyroidism and thyrotoxicosis collected over a 3-month period. Mean leptin levels in the euthyroid (24.1 +/- 8.3 microg/L), hypothyroid (22.7 +/- 7.0 microg/L) and thyrotoxic (23.3 +/- 4.3 microg/L) groups were not significantly different. Data were available to express leptin in terms of body mass index (BMI) in 11 euthyroid, and 6 untreated hypothyroid and thyrotoxic individuals. There was a significant positive correlation between BMI and leptin level (r = 0.60, p = .0002) for this subgroup, irrespective of their thyroid status. These data suggest that leptin levels are not affected by thyroid dysfunction.

Topics: Female; Humans; Hypothyroidism; Leptin; Male; Middle Aged; Proteins; Thyroid Diseases; Thyroid Function Tests; Thyrotoxicosis; Thyrotropin; Thyroxine

Adipose tissue is immunologically and hormonally active, and these effects are mediated largely by adipocytokines. Thyroid hormones regulate metabolism and organ function, and Hashimoto's thyroiditis (HT) is the most common autoimmune disease affecting thyroid function.. To evaluate the levels of the adipocytokines leptin and adiponectin in patients with autoimmune HT, and to perform a comparative intragroup analysis in patients with different stages of gland functional activity, and in a control group.. Ninety-five patients with HT and 21 healthy controls were enrolled in the study. Venous blood was taken without anticoagulants after at least 12 hours of fasting, and serum samples were frozen at -70°C until analysis. Serum levels of leptin and adiponectin were determined by an enzyme-linked immunosorbent assay (ELISA).. Serum levels of leptin in HT patients were higher than those in the control group (4.5±5.2 ng/mL vs. 1.9±1.3 ng/mL). The hypothyroid patient's group showed significantly higher levels of leptin than those of the healthy controls (5.1±5.2 ng/mL vs. 1.9±1.3 ng/mL), (p=0.031). Leptin levels correlated positively with body mass index (r=0.533, p.

Topics: Adipokines; Adiponectin; Hashimoto Disease; Humans; Hypothyroidism; Leptin

Thyroid hormones play an essential role in metabolism regulation and circadian rhythm control. Recent studies approved their role in normal development and healthy function of central nervous system (CNS). The thyroid gland is a component of the hypothalamic-pituitary-thyroid axis disrupted during thyrotoxicosis and hypothyroidism, two main clinical conditions that induce more liability against dementia-related disease.. In the first step, this study evaluated the circular level of neuropeptide Y (NPY), leptin, oxytocin, and vasopressin in hyperthyroidism and hypothyroidism patients. In the second step, we investigated neurological and cognitive abnormalities by assessment of the hallmark proteins and peptides such as amyloid β (Aβ) variants, glycogen synthase kinase 3β (GSK-3β), and tau protein in thyroid-deficient samples.. The results show increased content of leptin hormone in patients with hypothyroidism who also manifested high levels of vasopressin. Underactivation and overactivation of the thyroid gland are accompanied by reduced circular oxytocin. We may conclude that thyroid deficiency is associated with neurohormone dysregulation. Interestingly, both patient groups exhibited significant increases in Aβ40 and Aβ42 levels relative to the control group, which was also accompanied by the rise in GSK-3β; this might be interpreted as cholinergic system dysfunction and cognitive impairment. The results revealed tau content increased considerably in thyrotoxicosis but did not change significantly in hypothyroidism compared to the control group.. Therefore, our results have shown that thyroid gland dysfunction is a risk factor for cognitive impairment, mainly through neuroendocrine dysregulation. This study provides a relationship between hyperthyroidism/hypothyroidism and biomarkers of neurological abnormalities in blood serum.

Topics: Amyloid beta-Peptides; Biomarkers; Cognitive Dysfunction; Glycogen Synthase Kinase 3 beta; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Oxytocin; Thyrotoxicosis

Obesity usually complicates hypothyroidism. Adipokines like leptin and adiponectin secreted by adipose tissue modulate insulin resistance (IR), appetite, and obesity. The association between adipokines, IR, and thyroid hormone has not been sufficiently studied in children. We investigated leptin and adiponectin as well as IR and their association with thyroid hormone in both lean and hypothyroid children and adolescents with obesity.. The study included 30 lean hypothyroid, 30 hypothyroid children and adolescents with obesity, and 30 healthy lean children as the control group. Serum thyroid-stimulating hormone (TSH), free triiodothyronine (fT3), free thyroxine (fT4), fasting blood glucose, fasting insulin, homeostatic model assessment method of insulin resistance (HOMA-IR), leptin, and adiponectin levels were estimated in all participants.. Fasting insulin, HOMA-IR, and leptin levels were significantly elevated in hypothyroid children compared to the control group; more in hypothyroid children with obesity. In contrast, adiponectin levels were significantly lower in the hypothyroid children with obesity compared to the lean hypothyroid children and controls. HOMA-IR was positively correlated to TSH and BMI but inversely correlated with fT3 and fT4 in hypothyroid children. There was no correlation between IR and either leptin or adiponectin levels. Leptin and adiponectin levels correlated well with BMI in hypothyroid children and adolescents with obesity.. Insulin resistance and leptin levels are increased in hypothyroid children and adolescents; more in those with obesity. IR is not related to leptin and adiponectin levels, however, leptin and adiponectin levels correlate well with BMI in hypothyroid children and adolescents with obesity.. Insulin resistance (IR) and leptin levels increase in hypothyroid children and adolescent; more with obesity. IR is not related to leptin and adiponectin levels, however leptin and adiponectin levels correlated well with BMI in hypothyroid children and adolescents with obesity.

Topics: Adipokines; Adiponectin; Adolescent; Child; Humans; Hypothyroidism; Insulin; Insulin Resistance; Leptin; Pediatric Obesity; Thyrotropin

Thyroid hormones (TH) are essential for the homeostatic control of energy metabolism and the regulation of body temperature. The hypothalamic-pituitary-thyroid (HPT) axis is regulated by negative feedback mechanisms, ensuring that TH levels are maintained at a constant level. However, the feedback mechanisms underlying the resetting of the HPT axis regulation in the control of body temperature are still not fully understood. Here, we aimed to determine the thermoregulatory response in hypothyroid mice to different environmental temperatures and the underlying mechanisms.. Distinct thermogenic challenges were induced in hypothyroid female C57BL/6N and leptin-deficient ob/ob mice through housing at either room temperature or thermoneutrality. The thermogenic and metabolic effects were analyzed through metabolic chambers, 18F-FDG-PET/MRI, infrared thermography, metabolic profiling, histology, gene expression and Western blot analysis.. In hypothyroid mice maintained at room temperature, high leptin serum levels induce a pyrexic effect leading to the stabilization of body temperature through brown adipose tissue thermogenesis and white adipose tissue browning. Housing at thermoneutrality leads to the normalization of leptin levels and a reduction of the central temperature set point, resulting in decreased thermogenesis in brown and white adipose tissue and skeletal muscle and a significant decline in body temperature. Furthermore, anapyrexia in hypothyroid leptin-deficient ob/ob mice indicates that besides its pyrexic actions, leptin exerts a stimulatory effect on the HPT axis to stabilize the remaining TH serum levels in hypothyroid mice.. This study led to the identification of a previously unknown endocrine loop in which leptin acts in concert with the HPT axis to stabilize body temperature in hypothyroid mice.

Topics: Animals; Female; Hypothermia; Hypothyroidism; Leptin; Mice; Mice, Inbred C57BL; Mice, Obese; Protein Stability; Thyroid Hormones

To assess the metabolic effects of primary hypothyroidism (PHT) on the leptin (LP), adiponectin (ADP) level and leptin adiponectin ratio (LAR), with identification of the beneficial effects of L-thyroxine (LT4) therapy on these parameters.. This case-control study was conducted at the Department of Pharmacology, College of Medicine, Mustansiriyah University, Baghdad, Iraq, from July to October 2019. This study included 62 PHT patients, of whom 27 were newly diagnosed and 35 were on LT4 therapy. There were 28 healthy controls. Anthropometric, lipid and pressure profiles were evaluated along with estimation of TSH, T3, T4, LP and ADP serum levels. SPSS version 20.00 was used for data analysis.. LP serum level did not significantly differ among the three groups (P=0.23), however, ADP serum level was higher in patients with PHT on LT4 therapy (77.48±9.97ng/dL) as compared to the newly diagnosed patients without LT4 (66.21±7.67ng/dL), and controls (71.40±10.72), (P=0.01). Moreover, LAR was higher in non-treated PHT (1.29±0.18) as compared to the controls (1.13±0.14), (95%CI=0.0568 to 0.2632, P=0.001) and treated PHT (1.04±0.16), (95%CI=-0.3480 to -0.1520, P=0.001). On the other hand, no significant difference was detected between healthy controls and treated PHT patients (95%CI=-0.1871 to 0.0071, P=0.07).. PHT is associated with poor cardio-metabolic profile and high LAR. ADP but not LP, mainly affected in patients with PHT. However LAR is better than ADP and LP in reflecting the underlying PHT-induced cardio-metabolic derangements. LT4 replacement therapy improves cardio-metabolic profile, ADP and LP serum levels with significant amelioration of LAR in PHT patients.

Topics: Adiponectin; Case-Control Studies; Humans; Hypothyroidism; Leptin; Thyrotropin; Thyroxine

Background Melatonin, an important neurohormone released from the pineal gland, is generally accepted to exercise an inhibitor effect on the thyroid gland. Zinc mediates the effects of many hormones and is found in the structure of numerous hormone receptors. Aim The present study aims to examine the effect of melatonin supplementation and pinealectomy on leptin, neuropeptide Y (NPY), melatonin and zinc levels in rats with hypothyroidism and hyperthyroidism. Methods This study was performed on the 70 male rats. Experimental animals in the study were grouped as follows: control (C); hypothyroidism (PTU); hypothyroidism + melatonin (PTU + M); hypothyroidism + pinealectomy (PTU + Pnx); hyperthyroidism (H); hyperthyroidism + melatonin (H + M) and hyperthyroidism + pinealectomy (H + Pnx). Blood samples collected at the end of 4-week procedures were analyzed to determine melatonin, leptin, NPY and zinc levels. Results It was found that thyroid parameters thyroid stimulating hormone (TSH), free triiodthyronine (FT3), free thyroxine (FT4), total T3 (TT3) and total T4 (TT4) decreased in hypothyroidism groups and increased in the groups with hyperthyroidism. The changes in these hormones remained unaffected by melatonin supplementation and pinealectomy. Melatonin levels rose in hyperthyroidism and fell in hypothyroidism. Leptin and NPY levels increased in both hypothyroidism and hyperthyroidism. Zinc levels, on the other hand, decreased in hypothyroidism and pinealectomy, but increased in hyperthyroidism. Conclusion The results of the study demonstrate that hypothyroidism and hyperthyroidism affect leptin, NPY, melatonin and zinc values in different ways in rats. However, melatonin supplementation and pinealectomy do not have any significant influence on the changes occurring in leptin, NPY and zinc levels in thyroid dysfunction.

Topics: Animals; Biomarkers; Dietary Supplements; Disease Models, Animal; Hyperthyroidism; Hypothyroidism; Leptin; Male; Melatonin; Neuropeptide Y; Pineal Gland; Rats; Thyroid Function Tests; Zinc

Four genetic causes of isolated congenital central hypothyroidism (CeH) have been identified, but many cases remain unexplained. We hypothesised the existence of other genetic causes of CeH with a Mendelian inheritance pattern.. We performed exome sequencing in two families with unexplained isolated CeH and subsequently Sanger sequenced unrelated idiopathic CeH cases. We performed clinical and biochemical characterisation of the probands and carriers identified by family screening. We investigated. We found mutations in the insulin receptor substrate 4 (. Mutations in

Topics: Adolescent; Adult; Animals; Child; Child, Preschool; Female; Heterozygote; Humans; Hypothalamus; Hypothyroidism; Infant; Insulin Receptor Substrate Proteins; Leptin; Male; Mice; Middle Aged; Mutation; Pedigree; Pituitary Gland; Signal Transduction; Thyroxine; Young Adult

Hypothyroidism results in disturbances of metabolism influencing many regulatory systems and active molecules as adipocytokines. Objective of the study was to investigate leptin and adiponectin in patients with visceral obesity and hypothyroidism in relation to metabolic status, insulin resistance and systemic inflammation. A total of 118 patients (59 hypothyroid and 59 euthyroid) were enrolled divided into four age-matched groups according to body wеight (BMI) and thyroid function. Laboratory panel includes TSH, FT4, FT3 (CMIA), adiponectin and leptin (ELISA), IL- 6 (ECLIA), CRP, insulin, glucose, apolipoprotein B and lipoprotein (a) - Lp(a). Hypothyroid patients revealed significant positive correlations of TSH, adiponectin and Lp(a). Their medians of 10.4 mU/l, 12.5 µg/ml and 116.3 mg/l respectively were significantly higher than in euthyroid patients- 1.5 mU/l, 6.26 µg/ml and 32.0 mU/l (p < 0.0001). Leptin in both obese groups was significantly higher than in patients with normal weight. Leptin in hypothyroid patients was lower but not significant to euthyroid ones (9.7 ng/ml vs 13.4 ng/ml respectively, p = 0.16), correlated negatively to TSH and positively to CRP, IL-6, ApoB, Lp(a) and BMI. HOMA-IR and serum insulin at 120 min in OGTT were significantly higher in hypothyroid than in euthyroid patients independent of BMI (p < 0.001). Adiponectin, insulin resistance and chronic inflammation indices in hypothyroid patients correlated positively to TSH, BMI and atherogenic lipoproteins subclasses ApoB/Lp(a). Increased adiponectin in thyroid deficiency could be due to secondary resistance of adiponectin receptors or appeared as a compensatory pathogenetic factor in hypothyroidism.

Topics: Adiponectin; Adult; Case-Control Studies; Cross-Sectional Studies; Female; Humans; Hypothyroidism; Inflammation; Insulin Resistance; Leptin; Male; Metabolic Syndrome; Obesity, Abdominal; Thyroid Gland

Since zinc mediates the effects of many hormones or is found in the structure of numerous hormone receptors, zinc deficiency leads to various functional impairments in the hormone balance. And also thyroid hormones have important activity on metabolism and feeding. NPY and leptin are affective on food intake and regulation of appetite. The present study is conducted to determine how zinc supplementation and deficiency affect thyroid hormones (free and total T3 and T4), melatonin, leptin, and NPY levels in thyroid dysfunction in rats. The experiment groups in the study were formed as follows: Control (C); Hypothyroidism (PTU); Hypothyroidism+Zinc (PTU+Zn); Hypothyroidism+Zinc deficient; Hyperthyroidism (H); Hyperthyroidism+Zinc (H+Zn); and Hyperthyroidism+Zinc deficient. Thyroid hormone parameters (FT

Topics: Animals; Biomarkers; Enzyme-Linked Immunosorbent Assay; Hyperthyroidism; Hypothyroidism; Leptin; Male; Melatonin; Neuropeptide Y; Rats; Rats, Sprague-Dawley; Thyroid Hormones; Zinc

Thyroid hormones are important regulators of growth and maturation before birth, although the extent to which their actions are mediated by insulin and the development of pancreatic beta cell mass is unknown. Hypothyroidism in fetal sheep induced by removal of the thyroid gland caused asymmetric organ growth, increased pancreatic beta cell mass and proliferation, and was associated with increased circulating concentrations of insulin and leptin. In isolated fetal sheep islets studied in vitro, thyroid hormones inhibited beta cell proliferation in a dose-dependent manner, while high concentrations of insulin and leptin stimulated proliferation. The developing pancreatic beta cell is therefore sensitive to thyroid hormone, insulin and leptin before birth, with possible consequences for pancreatic function in fetal and later life. The findings of this study highlight the importance of thyroid hormones during pregnancy for normal development of the fetal pancreas.. Development of pancreatic beta cell mass before birth is essential for normal growth of the fetus and for long-term control of carbohydrate metabolism in postnatal life. Thyroid hormones are also important regulators of fetal growth, and the present study tested the hypotheses that thyroid hormones promote beta cell proliferation in the fetal ovine pancreatic islets, and that growth retardation in hypothyroid fetal sheep is associated with reductions in pancreatic beta cell mass and circulating insulin concentration in utero. Organ growth and pancreatic islet cell proliferation and mass were examined in sheep fetuses following removal of the thyroid gland in utero. The effects of triiodothyronine (T

Topics: Animals; Cell Proliferation; Cells, Cultured; Female; Fetal Diseases; Hyperinsulinism; Hypothyroidism; Insulin; Insulin-Secreting Cells; Leptin; Pregnancy; Sheep; Triiodothyronine

Leptin and ghrelin, two peptide hormones with antagonistic effects on satiety and energy balance, could be involved in the pathogenesis of weight loss and polyphagia in cats with hyperthyroidism. Leptin generally decreases appetite and increases energy expenditure, while ghrelin exerts the opposite effects.. Leptin and ghrelin were measured in 42 client owned hyperthyroid cats with a body condition score (BCS) ≤ 5/9 before (T0) and 4 weeks after radioactive iodine treatment (RAIT) (T1). Dependent on the serum total thyroxine concentration concentration at T1, cats were sub-classified as still hyperthyroid (ht-ht) (n = 4), euthyroid (ht-eu) (n = 10) or hypothyroid (ht-hypo) (n = 28). Results were compared to those of 22 healthy, euthyroid control cats with a comparable BCS (≤ 5/9) and age (≥ 8 years) to hyperthyroid cats.. At T0, there were no significant differences between hyperthyroid and control cats for leptin (p = 0.06) or ghrelin concentrations (p = 0.27). At T1, leptin significantly decreased in ht-hypo cats compared to T0 (p = 0.0008) despite a significantly increased body weight in this group (p = 0.0001). Serum ghrelin concentrations did not differ between hyperthyroid cats with a history of polyphagia compared to non-polyphagic cats (p = 0.42). After RAIT, ghrelin concentration significantly increased in all hyperthyroid cats (p < 0.0001), as well as in the subgroups ht-eu (p = 0.014) and ht-hypo (p < 0.0001) compared to their respective T0 baseline concentrations.. Leptin and ghrelin fluctuations may be indicative of changes in metabolic functions in cats with thyroid dysfunction. Leptin fluctuations occurred independently of body weight in different states of thyroid dysfunction; increasing ghrelin concentrations after RAIT suggest a ghrelin-independent mechanism for polyphagia in hyperthyroid cats.

Topics: Animals; Cat Diseases; Cats; Ghrelin; Hyperthyroidism; Hypothyroidism; Iodine Radioisotopes; Leptin

Thyroid hormone and leptin are essential regulators of energy homeostasis. Both hormones stimulate energy expenditure but have opposite effects on appetite. The mechanisms behind food intake regulation in thyroid dysfunctions are poorly understood. It has been shown that hypothyroid rats exhibited impaired leptin anorexigenic effect and signaling in total hypothalamus, even though they were hypophagic. It was hypothesized that hypothyroidism modulates the expression of neuropeptides: orexigenic neuropeptide Y (NPY) and anorexigenic proopiomelanocortin (POMC), independently of inducing nuclei-specific changes in hypothalamic leptin signaling.. Adult male rats were rendered hypothyroid by administration of 0.03% methimazole in the drinking water for 21 days. Protein content of NPY, POMC, and leptin signaling (the signal transducer and activator of transcription 3 [STAT3] pathway) were evaluated by Western blot, and mRNA levels by real time reverse transcription polymerase chain reaction in arcuate (ARC), ventromedial (VMN), and paraventricular (PVN) hypothalamic nuclei isolated from euthyroid (eu) and hypothyroid (hypo) rats. Leptin anorexigenic effect was tested by recording food intake for two hours after intracerebroventricular (i.c.v.) administration of leptin. Statistical differences were considered significant at p ≤ 0.05.. Hypothyroidism was confirmed by decreased serum triiodothyronine, thyroxine, and increased thyrotropin, in addition to increased levels of pro-TRH mRNA in PVN and Dio2 mRNA in the ARC of hypo rats. Hypothyroidism decreased body weight and food intake associated with decreased protein content of NPY and increased content of POMC in the ARC. Conversely, hypothyroidism induced central resistance to the acute anorexigenic effect of leptin, since while euthyroid rats displayed reduced food intake after leptin i.c.v. injection, hypothyroid rats showed no response. Hypothyroid rats exhibited decreased leptin receptor (ObRb) protein content in ARC and VMN but not in PVN nucleus. ObRb protein changes were concomitant with decreased phosphorylated STAT3 in the ARC, and decreased total STAT3 in VMN and PVN. However, hypothyroidism did not affect mRNA levels of Lepr or Stat3 in the hypothalamic nuclei.. Experimental hypothyroidism induced a negative energy balance accompanied by decreased NPY and increased POMC protein content in the ARC, resulting in predominance of anorexigenic pathways, despite central leptin resistance and impairment of the leptin signaling cascade in a nuclei-specific manner.

Topics: Animals; Appetite Regulation; Arcuate Nucleus of Hypothalamus; Disease Models, Animal; Eating; Energy Metabolism; Feeding Behavior; Hypothyroidism; Iodide Peroxidase; Iodothyronine Deiodinase Type II; Leptin; Male; Methimazole; Neuropeptide Y; Paraventricular Hypothalamic Nucleus; Phosphorylation; Pro-Opiomelanocortin; Rats, Wistar; Receptors, Leptin; Signal Transduction; STAT3 Transcription Factor; Thyrotropin-Releasing Hormone; Ventromedial Hypothalamic Nucleus; Weight Loss

Di(2-ethylhexyl) phthalate (DEHP) is reported to cause obesity and hypothyroidism in both humans and rodents, but the underlying mechanisms were largely unknown. This study was designed to clarify the effects and the mechanisms of DEHP on the pathogenesis of obesity and hypothyroidism and to discover the relationship between them.. Male C3H/He mice were treated with DEHP for 5 weeks, and the body weight, food intake, and body temperature were recorded during the exposure. After exposure, key organs and serum were analyzed by Q-PCR, Western blot, and ELISA.. DEHP induced significant body weight gain and adipogenesis in all exposure groups except for 0.05 mg/kg. Marked hyperphagia and daytime hypothermia were also observed, which were accompanied by disturbed hypothalamic neuropeptide expression and reduced BAT UCP1 expression. In addition, WAT lipid metabolism was significantly deceased at low dose (0.5 mg/kg) and increased at high dose (50 and 200 mg/kg). DEHP also induced hypothyroidism, which was probably attributed to the combined effects of hepatic CAR activation and hypothalamic TRH inhibition induced by hypothalamic leptin resistance.. Chronic DEHP exposure could induce obesity by interrupting energy homeostasis, which is probably due to the synergistic effects of hypothyroidism and hypothalamic leptin resistance.

Topics: Adipogenesis; Animals; Body Weight; Diethylhexyl Phthalate; Hypothalamus; Hypothyroidism; Leptin; Male; Mice; Mice, Inbred C3H; Obesity; Plasticizers; Real-Time Polymerase Chain Reaction; Weight Gain

This study tested whether the maternal transport of dexamethasone (DEXA) may affect the development of the neuroendocrine system. DEXA (0.2mg/kg b.w., subcutaneous injection) was administered to pregnant rats from gestation day (GD) 1-20. In the DEXA-treated group, a decrease in maternal serum thyroxine (T4), triiodothyronine (T3), and increase in thyrotropin (TSH) levels (hypothyroid status) were observed at GDs 15 & 20 with respect to control group. The reverse pattern (hyperthyroid status) was observed in their fetuses at embryonic days (EDs) 15 & 20. Although the maternal body weight was diminished, the weight of the thyroid gland was increased at studied GDs as compared to the control group. The fetal growth retardation, hyperleptinemia, hyperinsulinism, and cytokines distortions (transforming growth factor-beta; TGF-β, tumor necrosis factor-alpha; TNF-α, and interferon-γ; IFN-γ) were noticed at examined EDs if compared to the control group. Alternatively, the maternofetal thyroid dysfunctions due to the maternal DEXA administration attenuated the levels of fetal cerebral norepinephrine (NE) and epinephrine (E), and elevated the levels of dopamine (DA) and 5-hydroxytryptamine (5-HT) at considered days. These alterations were age-dependent and might damage the nerve transmission. Finally, maternal DEXA might act as neuroendocrine disruptor causing dyshormonogenesis and fetal cerebral dysfunction.

Topics: Animals; Anti-Inflammatory Agents; Cytokines; Dexamethasone; Endocrine Disruptors; Female; Fetal Development; Fetal Growth Retardation; Hyperinsulinism; Hypothyroidism; Injections, Subcutaneous; Leptin; Maternal-Fetal Exchange; Neurosecretory Systems; Organ Size; Pregnancy; Rats, Wistar; Thyroid Gland; Thyrotropin; Thyroxine; Triiodothyronine; Weight Gain

Obesity is an important health problem worldwide and many studies have suggested a relationship between obesity and thyroid function, with controversial results. Interestingly, high TSH levels have been involved with the presence of inflammatory state and risk for developing cardiovascular diseases in hypothyroid and obese patients. The aim in this work was to determine the prevalence of hypothyroidism in patients with extreme obesity and to determine whether their TSH levels were related to increased serum levels of inflammatory and cardiovascular markers.. A cross-sectional study in 101 patients with extreme obesity (BMI ≥40) was performed. Anthropometric (weight, height and waist circumference) and biochemical (fasting glucose, glycosylated hemoglobin, triglycerides, total cholesterol, LDL-C, HDL-C and insulin) parameters were measured. TSH and FT4 levels as well as clinical exploration for diagnosis of hypothyroidism were carried out. Serum concentration of IL-10, IL-6, adiponectin, resistin, leptin, ICAM-1, VCAM-1 and E-selectin were determined.. A high prevalence for diabetes (37.6%), prediabetes (50.5%), dyslipidemia (74.3%), hypertension (61.4%) and hypothyroidism (48.5%) was observed in patients with extreme obesity. The presence of hypothyroidism increased serum concentration of proinflammatory cytokines IL-6 and leptin and decreased the antiinflammatory cytokine adiponectin. In addition, serum TSH levels showed a correlation for waist circumference, weight, BMI, A1c, insulin, IL-6, leptin, ICAM-1 and E-selectin.. There is a high prevalence for hypothyroidism in patients with extreme obesity. High levels of TSH contribute to elevate proinflammatory and cardiovascular risk markers, increasing the risk for development of cardiovascular diseases.

Topics: Adiponectin; Adult; Biomarkers; Body Weight; Cardiovascular Diseases; Cross-Sectional Studies; E-Selectin; Female; Humans; Hypothyroidism; Inflammation; Insulin; Intercellular Adhesion Molecule-1; Interleukin-10; Interleukin-6; Leptin; Male; Middle Aged; Obesity, Morbid; Prevalence; Resistin; Risk Factors; Thyrotropin; Triglycerides; Vascular Cell Adhesion Molecule-1; Waist Circumference

During the last two decades, it has become obvious that 3,5-diiodothyronine (3,5-T2), a well-known endogenous metabolite of the thyroid hormones thyroxine (T4) or triiodothyronine (T3), not only represents a simple degradation intermediate of the former but also exhibits specific metabolic activities. Administration of 3,5-T2 to hypothyroid rodents rapidly stimulated their basal metabolic rate, prevented high-fat diet-induced obesity as well as steatosis, and increased oxidation of long-chain fatty acids.. The aim of the present study was to analyze associations between circulating 3,5-T2 in human serum and different epidemiological parameters, including age, sex, or smoking, as well as measures of anthropometry, glucose, and lipid metabolism.. 3,5-T2 concentrations were measured by a recently developed immunoassay in sera of 761 euthyroid participants of the population-based Study of Health in Pomerania. Subsequently, analysis of variance and multivariate linear regression analysis were performed.. Serum 3,5-T2 concentrations exhibited a right-skewed distribution, resulting in a median serum concentration of 0.24 nM (1st quartile: 0.20 nM; 3rd quartile: 0.37 nM). Significant associations between 3,5-T2 and serum fasting glucose, thyrotropin (TSH), as well as leptin concentrations were detected (p<0.05). Interestingly, the association to leptin concentrations seemed to be mediated by TSH. Age, sex, smoking, and blood lipid profile parameters did not show significant associations with circulating 3,5-T2.. Our findings from a healthy euthyroid population may point toward a physiological link between circulating 3,5-T2 and glucose metabolism.

Topics: Adult; Aged; Diiodothyronines; Female; Humans; Hypothyroidism; Leptin; Male; Middle Aged; Thyrotropin; Thyroxine; Triiodothyronine; Young Adult

Genistein is an isoflavone constituent of soya. This study examined the mechanism by which genistein produced adverse effects in pregnant laboratory rats. Pregnant rats were divided into control (Con) and genistein (Gen) force fed (2 mg/kg) groups. At terminal gestation day (GD) ranging from 0-20, the rats were sacrificed, and blood samples and amniotic fluids were collected. Thyroid hormone, C-reactive protein (CRP) and leptin assay was carried using the blood samples. Leptin was also assayed in the placenta and amniotic fluid supernatant. Oral exposure of pregnant rats to genistein significantly altered maternal T3, (GD18; Con 1.65 ± 0.01, Gen 1.03 ± 0.04 nmol/L), T4 (GD6; Con 29.60 ± 0.00, Gen 36.04 ± 1.29 nmol/L), Leptin (Placenta GD20; Con 0.08 ± 0.01, Gen 0.31 ± 0.02 ng/ml, amniotic fluid ;GD 20; Con 0.02 ± 0.00, Gen 0.35 ± 0.05 ng/ml) in genistein group. These changes were accompanied with loss of embryonic implants and a decrease in fetal and placental weights. The CRP level was significantly decreased and increased at the onset and toward late pregnancy respectively. Oral exposure of pregnant rats to genistein precipitated hypothyroidism, altered some metabolic hormones with a reduction in fetal and placental growth and increased resorption of embryonic implants.

Topics: Animals; C-Reactive Protein; Female; Genistein; Hypothyroidism; Leptin; Male; Pregnancy; Protein Biosynthesis; Rats; Rats, Sprague-Dawley

The NR4A is a subfamily of the orphan nuclear receptors (NR) superfamily constituted by three well characterized members: Nur77 (NR4A1), Nurr1 (NR4A2) and Nor 1 (NR4A3). They are implicated in numerous biological processes as DNA repair, arteriosclerosis, cell apoptosis, carcinogenesis and metabolism. Several studies have demonstrated the role of this subfamily on glucose metabolism, insulin sensitivity and energy balance. These studies have focused mainly in liver and skeletal muscle. However, its potential role in white adipose tissue (WAT), one of the most important tissues involved in the regulation of energy homeostasis, is not well-studied. The aim of this work was to elucidate the regulation of NR4A in WAT under different physiological and pathophysiological settings involved in energy balance such as fasting, postnatal development, gender, hormonal deficiency and pregnancy. We compared NR4A mRNA expression of Nur77, Nurr1 and Nor 1 and found a clear regulation by nutritional status, since the expression of the 3 isoforms is increased after fasting in a leptin-independent manner and sex steroid hormones also modulate NR4A expression in males and females. Our findings indicate that NR4A are regulated by different physiological and pathophysiological settings known to be associated with marked alterations in glucose metabolism and energy status.

Topics: Adipose Tissue, White; Animals; Caloric Restriction; DNA-Binding Proteins; Energy Metabolism; Fasting; Female; Gene Expression Regulation; Glucose; Gonadal Steroid Hormones; Growth Hormone; Hypothyroidism; Injections, Intraventricular; Leptin; Male; Mice, Inbred C57BL; Nerve Tissue Proteins; Nuclear Receptor Subfamily 4, Group A, Member 1; Nuclear Receptor Subfamily 4, Group A, Member 2; Orchiectomy; Ovariectomy; Rats; Rats, Sprague-Dawley; Sex Characteristics; Signal Transduction

The impact of thyroid hormone (TH) on metabolism and energy expenditure is well established, but the role of TH in regulating nutritional sensing, particularly in the central nervous system, is only poorly defined. Here, we studied the consequences of hypothyroidism on leptin production as well as leptin sensing in congenital hypothyroid TRH receptor 1 knockout (Trhr1 ko) mice and euthyroid control animals. Hypothyroid mice exhibited decreased circulating leptin levels due to a decrease in fat mass and reduced leptin expression in white adipose tissue. In neurons of the hypothalamic arcuate nucleus, hypothyroid mice showed increased leptin receptor Ob-R expression and decreased suppressor of cytokine signaling 3 transcript levels. In order to monitor putative changes in central leptin sensing, we generated hypothyroid and leptin-deficient animals by crossing hypothyroid Trhr1 ko mice with the leptin-deficient ob/ob mice. Hypothyroid Trhr1/ob double knockout mice showed a blunted response to leptin treatment with respect to body weight and food intake and exhibited a decreased activation of phospho-signal transducer and activator of transcription 3 as well as a up-regulation of suppressor of cytokine signaling 3 upon leptin treatment, particularly in the arcuate nucleus. These data indicate alterations in the intracellular processing of the leptin signal under hypothyroid conditions and thereby unravel a novel mode of action by which TH affects energy metabolism.

Topics: Adipose Tissue, Brown; Agouti-Related Protein; Animals; Body Weight; Eating; Gene Expression Regulation; Hypothalamus; Hypothyroidism; Leptin; Male; Mice; Mice, Inbred C57BL; Oxygen Consumption; Pro-Opiomelanocortin; Receptors, Leptin; Receptors, Thyroid Hormone; RNA, Messenger; Signal Transduction; STAT3 Transcription Factor; Suppressor of Cytokine Signaling 3 Protein; Suppressor of Cytokine Signaling Proteins; Thyroid Hormones

Topics: Animals; Endocrinology; Gonadotropin-Releasing Hormone; Humans; Hypothalamus; Hypothyroidism; Kisspeptins; Leptin; Mice; Periodicals as Topic; Signal Transduction

Subclinical hypothyroidism (SCH) is defined by increased thyrotropin (TSH) and normal free thyroxine (fT4) levels. Controversial data are available regarding the effects of SCH on adipose tissue. Adiponectin and leptin are two major adipokines secreted from adipose tissue. We aimed to determine the levels of adiponectin and leptin in women with SCH and potential effects of L-thyroxine therapy on those levels. Forty three women with SCH and 53 age- and BMI-matched healthy euthyroid control women were included. Adiponectin and leptin levels, total cholesterol (TC), triglycerides (TG), HDL-, and LDL cholesterol, fat mass (FM) and fat-free mass (FFM) were determined in all participants. Patients received L-thyroxine treatment for 6 months after which all measurements were repeated. Patients with SCH and controls had similar baseline values for adiponectin, leptin, lipids, FM and FFM. All patients reached euthyroid status after 6 months of replacement therapy. Treatment resulted in an increase in adiponectin (p <0.01) and a decrease in leptin levels (p <0.05). Lipid levels, FM and FFM did not show a significant change. Achievement of euthyroid status by replacement therapy increases adiponectin and decreases leptin levels in women with SCH in this prospective study independent of a change in body fat mass.

Topics: Adiponectin; Case-Control Studies; Female; Humans; Hypothyroidism; Leptin; Lipids; Middle Aged; Prospective Studies; Thyroxine

Increasing evidence suggests that alterations in early nutrition programme physiological changes in adulthood. In the present study, we determined the effects of undernutrition during gestation and lactation on the programming of thyroid function in adult rat offspring. Perinatal undernutrition was achieved by a 40% food restriction in female Wistar rats from the mating day to weaning. On postpartum day 21, the offspring of the control and food-restricted dams were weaned and given free access to a commercial diet until adulthood. The results showed that undernourished rats exhibited decreased 3,5,3'-triiodothyronine (T3) levels but had normal thyroxine (T4) and thyrotropin (TSH) levels at weaning; on day 90, these rats displayed a significant flip, exhibiting normalised T3 (total and free) and total T4 levels, but low free T4 and persistently higher TSH levels, which were maintained even on postnatal day 140. This profile was accompanied by a scarce fat depot, a lower RMR and an exacerbated sympathetic brown adipose tissue (BAT) tone (deiodinase type 2 expression) in basal conditions. Moreover, when a functional challenge (cold exposure) was applied, the restricted group exhibited partial changes in TSH (29 v. 100%) and T4 (non-response v. 17%) levels, a significant decrease in leptin levels (75 v. 32%) and the maintenance of a sympathetic BAT over-response (higher noradrenaline levels) in comparison with the control group. The findings of the present study suggest that undernutrition during the perinatal period produces permanent changes in the hypothalamus-pituitary-thyroid axis with consequent low body weight and decreased RMR and facultative thermogenesis. We hypothesise that these changes predispose individuals to exhibiting adult subclinical hypothyroidism.

Topics: Adipose Tissue, Brown; Animals; Basal Metabolism; Body Weight; Cold Temperature; Female; Humans; Hypothyroidism; Infant Nutritional Physiological Phenomena; Infant, Newborn; Lactation; Leptin; Malnutrition; Norepinephrine; Pregnancy; Prenatal Exposure Delayed Effects; Prenatal Nutritional Physiological Phenomena; Rats; Rats, Wistar; Thermogenesis; Thyroid Gland; Thyroid Hormones

Epidemiological and in vitro data have not provided conclusive evidence concerning the involvement of thyroid hormones (THs) on mammary carcinogenesis. We used an in vivo model to assess the relationship between THs, adipose tissue and breast cancer development. Female Sprague‑Dawley rats were treated with a dose of 7,12-dimethylbenz(a)anthracene (15 mg/rat) at 55 days of age and were then divided into four experimental groups: hypothyroid rats (HypoT, 0.01% 6-N-propyl-2-thiouracil in drinking water), untreated control (EUT); hyperthyroid rats (HyperT, 0.25 mg/kg/day T4 s.c.) and vehicle-treated control rats. The latency of tumor appearance and the incidence and progression of tumors were determined. At sacrifice, blood samples were collected for hormone determinations and samples of tumor and mammary glands were obtained for immunohistological studies. HypoT rats had retarded growth and an increase in mammary fat. The latency was longer (p<0.0001), the incidence rate was lower (p<0.05) and tumor growth was slower in HypoT rats compared to EUT and HyperT rats. Mitotic index and PCNA immunostaining were similar in all groups. HypoT rats showed increased apoptosis (p<0.05) as evaluated by the apoptotic index and TUNEL staining. No differences in serum prolactin and progesterone were observed. However, circulating estradiol (E2) was significantly lower in HypoT and HyperT rats. Serum leptin levels were reduced in HypoT rats even though the abdominal fat mass was similar in all groups. To note, the leptin level was higher in HypoT rats that developed mammary tumors than the level in non-tumoral HypoT rats. In conclusion, hypothyroidism altered animal growth, breast morphology, body composition, leptin secretion and serum E2 enhancing apoptosis and, consequently, retarding mammary carcinogenesis in rats.

Topics: 9,10-Dimethyl-1,2-benzanthracene; Adipokines; Animals; Apoptosis; Body Composition; Carcinogens; Cell Proliferation; Estradiol; Female; Hypothyroidism; Leptin; Mammary Glands, Animal; Mammary Neoplasms, Experimental; Progesterone; Prolactin; Rats; Rats, Sprague-Dawley

Leptin has been shown to regulate the hypothalamus-pituitary-thyroid axis, acting primarily through the STAT3 pathway triggered through the binding of leptin to the long-chain isoform of the leptin receptor, ObRb. We previously demonstrated that although hyperthyroid rats presented leptin effects on TSH secretion, those effects were abolished in hypothyroid rats. We addressed the hypothesis that changes in the STAT3 pathway might explain the lack of TSH response to leptin in hypothyroidism by evaluating the protein content of components of leptin signalling via the STAT3 pathway in the hypothalamus and pituitary of hypothyroid (0·03% methimazole in the drinking water/21 days) and hyperthyroid (thyroxine 5 μg/100 g body weight /5 days) rats. Hypothyroid rats exhibited decreased ObRb and phosphorylated STAT3 (pSTAT3) protein in the hypothalamus, and in the pituitary gland they exhibited decreased ObRb, total STAT3, pSTAT3 and SOCS3 (P<0·05). Except for a modest decrease in pituitary STAT3, no other alterations were observed in hyperthyroid rats. Moreover, unlike euthyroid rats, the hypothyroid rats did not exhibit a reduction in food ingestion after a single injection of leptin (0·5 mg/kg body weight). Therefore, hypothyroidism decreased ObRb-STAT3 signalling in the hypothalamus and pituitary gland, which likely contributes to the loss of leptin action on food intake and TSH secretion, as previously observed in hypothyroid rats.

Topics: Acute Disease; Animals; Anorexia; Down-Regulation; Drug Resistance; Eating; Hypothalamus; Hypothyroidism; Leptin; Male; Pituitary Gland; Rats; Rats, Wistar; Receptors, Leptin; Signal Transduction; STAT3 Transcription Factor; Thyrotropin

Extreme replacement of skeletal muscles by adipose tissue was found in an 86-year old Japanese male cadaver during dissection practice for medical students at Oita University School of Medicine. Especially, the bilateral sartorius muscles looked overall like adipose tissue. The man had suffered from diabetes mellitus, renal failure, hypertension and hypothyroidism before his death. He was also an alcohol drinker. He had been bedridden late in life. The cause of death was renal failure. In microscopy, the adipose tissue-like sartorius muscle was shown to consist of leptin-positive adipocytes with a small number of degenerated muscle fibers. Fatty replacement, or fatty degeneration, appears to result from endocrine and metabolic disorders, and being bedridden leads to muscle atrophy and damage, although the origin of the adipocytes which emerged in the degenerated muscles is unknown.

Topics: Adipocytes, White; Adipose Tissue, White; Aged, 80 and over; Body Fat Distribution; Cadaver; Comorbidity; Diabetes Mellitus; Humans; Hypertension; Hypothyroidism; Leptin; Male; Muscle, Skeletal; Renal Insufficiency

Serum concentrations of leptin and insulin were compared between gender-matched hypothyroid (n=25) and healthy (n=25) client-owned dogs within comparable age and body condition score (BCS) ranges. Fasted blood samples were collected from each dog and analysed for glucose, cholesterol, triglyceride, leptin and insulin concentrations. Leptin and insulin concentrations were significantly higher in the hypothyroid compared to normal dogs (P=0.006 and P=0.001, respectively) following adjustment for potential confounders. A nearly significant (P=0.051) interaction with BCS was found in the association between hypothyroidism and leptin. Leptin concentrations were significantly higher in hypothyroid dogs compared to normal dogs, in separate analyses for BCS 6 (P=0.036) and 7 (P=0.049). There was no significant difference in glucose concentration between the hypothyroid and normal groups (P=0.84) following adjustment for BCS. This study showed that canine hypothyroidism is associated with increased serum leptin and insulin concentrations, neither of which may be attributed to obesity alone.

Topics: Animals; Blood Glucose; Body Constitution; Case-Control Studies; Cholesterol; Dog Diseases; Dogs; Female; Hypothyroidism; Insulin; Leptin; Male; Obesity; Triglycerides

The aims of the study were to compare: a) the thermogenic responses in subclinical hypothyroidism (SH) and euthyroid state; b) the relationship between thermogenic response and leptin level.. Thirty women diagnosed with SH (mean age 39.9+/-4.1 yr; body mass index 23.2+/-2.5 kg/m(2)) were enrolled in the study. Thyroid function tests, leptin, and lipid profiles were measured during SH and after stable euthyroidism was recovered. Thermogenic response was measured by Water Immersion Calorimetry during SH and after the euthyroid state was attained.. The mean level of thermogenic response was found to be 1.45+/-0.43 kcal/kg*h in women with SH. It changed to 1.54+/-0.77 kcal/kg*h (p=0.01) in the euthyroid state; the change was statistically significant. Mean level of leptin was found to be 7.22+/-2.6 ng/ml in SH; and 15.8+/-8.0 ng/ml in the euthyroid state. There was a positive correlation between leptin and free T(3) (r=0.460, p=0.009) levels in SH. There were positive correlations between leptin level and fat mass in SH (r=0.820, p=0.01) and in the euthyroid state (r=0.700, p=0.03).. No correlations were found between thermogenic response and leptin levels in SH and in the euthyroid state. Thermogenic response and leptin levels rose after the euthyroid state was recovered.

Topics: Adult; Body Mass Index; Female; Humans; Hypothyroidism; Leptin; Thermogenesis

Maternal hypoprolactinemia at the end of lactation (a precocious weaning model) increases milk leptin transfer and results in overweight, leptin resistance, and secondary hypothyroidism at adulthood. We studied the effects of prolactin (PRL) inhibition during mid-lactation (a partial malnutrition model) on milk leptin transfer, leptinemia, body composition, and thyroid function. Lactating rats were treated with bromocryptine (BRO, 1 mg/twice daily) or saline on days 7, 8, and 9 of lactation. Offspring were sacrificed 10, 21, and 90 days after birth. After treatment, BRO-treated dams showed hypoprolactinemia and hyperleptinemia, and produced less milk with lower levels of lactose and higher milk triglycerides. Milk leptin levels were lower at weaning. Offspring of BRO-treated dams had lower body weight and length as well as less visceral fat during lactation and adulthood. Total fat was also lower at weaning and adult life, whereas total protein was higher at 90 days-old. BRO offspring presented lower serum T4 and TSH at 10 days-old and weaning, respectively. When adults, these rats exhibited hypoleptinemia, lower levels of thyroid hormones, and higher TSH. Early inhibition of PRL therefore leads to offspring malnutrition and affects subsequent growth. Also, inhibition of PRL during lactation predisposes offspring to hypothyroidism; however, when the inhibition occurs during late lactation, the hypothyroidism is secondary, whereas when it is restricted to mid-lactation, the thyroid hypofunction is primary. The programming effect of milk suppression thus depends on the developmental stage of offspring.

Topics: Adiposity; Aging; Animals; Bromocriptine; Feeding Behavior; Female; Hypothyroidism; Lactation; Leptin; Malnutrition; Milk; Obesity; Prolactin; Rats; Rats, Wistar; Thyroid Gland; Weight Gain

Obesity can alter the thyroid hormone status as a result of a dysregulated endocrine loop between the hypothalamo-pituitary unit and adipose tissue. The adipocytokine leptin has been shown to promote autoimmunity; hence, we aimed to clarify whether leptin excess of obesity could increase the susceptibility to develop autoimmune thyroid disease (AITD).. This cross-sectional study was performed in a tertiary care center.. Free thyroid hormones, TSH, thyroglobulin, and antithyroid antibodies levels were tested in 165 obese and 118 lean subjects. Results were plotted against variables related to body composition, leptin levels, glucose homeostasis, energy expenditure, and pattern of weight accrual.. Compared with controls, obese patients had lower free T3 levels and free T4 levels (P<0.01), greater prevalence of hypothyroidism (P<0.05), and higher commonness of antithyroid antibodies (P<0.05). As a marker of AITD, thyroid peroxidase antibodies were more frequent in the obese group (P<0.01). Correlation analysis showed that leptin levels were associated with AITD (P<0.01) independent of bioanthropometric variables. Multiple logistic regression analysis in pooled groups identified female sex and leptin as significant predictors of AITD.. Obesity increases the susceptibility to harbor AITD with an emerging role for leptin as a peripheral determinant, which needs to be confirmed in future investigations.

Topics: Adult; Analysis of Variance; Autoantibodies; Autoimmunity; Body Composition; Body Mass Index; Body Weight; Cross-Sectional Studies; Female; Humans; Hypothyroidism; Insulin Resistance; Leptin; Male; Middle Aged; Obesity; Patient Selection; Sex Factors; Thyroid Gland; Thyroxine; Triiodothyronine

Postnatal nicotine exposure causes precocious primary hypothyroidism and programs for overweight, hyperleptinemia and secondary hypothyroidism in adulthood. As leptin and thyroid hormones share the ability to increase energy expenditure, we studied the effects of maternal nicotine exposure during lactation on the leptin signaling in the hypothalamus-pituitary-thyroid axis of suckling and adult offspring.. Two days after delivery, osmotic minipumps were implanted in lactating rats, and nicotine (NIC, 6 mg/kg/day s.c.) or saline (C) was administered for 14days. Offspring were killed at 15 and 180 days-old. Proteins belonging to leptin signaling were analyzed by Western blot. Significant differences had p<0.05.. In the hypothalamus, NIC offspring showed higher OB-R and pSTAT-3 content (+58%,+1.34x) at 15 days, and lower OB-R, JAK-2 and pSTAT-3 (-61%, -42%, -56%) at 180 days. In the pituitary gland, NIC offspring showed lower JAK-2 content (-52%) at 15 days, but no differences in adulthood. In the thyroid gland, the NIC group presented lower OB-R, JAK-2 and STAT-3 (-44%, -50%, -47%) and higher pSTAT-3 expression (+80%) at 15 days. At 180 days-old, NIC offspring presented higher thyroid OB-R (+1.54x) and lower pSTAT-3 content (-34%).. Neonatal primary hypothyroidism induced by maternal nicotine exposure during lactation may be partially explained by decreased leptin signaling in the thyroid, though the early stimulation of the central leptin pathway did not prevent the thyroid dysfunction. Long-term effects of postnatal nicotine exposure on leptin signaling in the hypothalamus and thyroid appear to involve central and peripheral leptin resistance in adulthood.

Topics: Animals; Animals, Newborn; Animals, Suckling; Blotting, Western; Female; Hypothalamus; Hypothyroidism; Lactation; Leptin; Male; Nicotine; Nicotinic Agonists; Pituitary Gland; Rats; Rats, Wistar; Signal Transduction; Thyroid Gland; Time Factors

Topics: Adult; Body Mass Index; Carcinoma; Child, Preschool; Fasting; Humans; Hypothyroidism; Insulin; Leptin; Obesity; Thyroid Neoplasms; Thyrotropin; Thyroxine; Triglycerides; Triiodothyronine; Weight Loss

Thyroid dysfunction can compromise physical capacity. Here, we analyze the effects of hyperthyroidism and hypothyroidism on maximum swim time in rats subjected to acute forced swimming, as an indicator of anaerobic capacity. Animals were forced to swim against a load (5% of body weight) attached to the tail and were killed 48 hours after the last test. Hyperthyroid rats were treated with thyroxine (50 mug/100 g body weight, i. p. for 7 days). The hypothyroid group received 0.03% methimazole in the drinking water for 4 weeks. Thyroid state was confirmed by alterations in serum thyroid-stimulating hormone (TSH), triiodothyronine (T3), thyroxine (T4), and liver mitochondrial glycerol phosphate dehydrogenase (mGPD) activity. Hyperthyroid rats presented significantly lower visceral fat mass (VFM) and higher food intake (p<0.05) with unchanged body weight. Maximum swim time (MST), glycogen content (skeletal muscle and liver), and leptin levels were lower while corticosterone was higher (p<0.05). In hypothyroid rats body weight was lower (p<0.05), without changes in VFM. Tested at 7-day intervals, MST was lower for tests 2, 3, and 4 (p<0.05). Muscle glycogen was higher in extensor digitorum longus (EDL) and soleus (p<0.05), without changes in liver. Serum corticosterone was lower, while leptin was higher (p<0.05). These results suggest that in hyperthyroid and hypothyroid rats, thyroid hormones together with corticosterone and/or leptin may impair exercise capacity differently through its known effects on glycogen metabolism.

Topics: Animals; Body Composition; Corticosterone; Eating; Exercise Tolerance; Glycogen; Hyperthyroidism; Hypothyroidism; Leptin; Liver Glycogen; Male; Muscle, Skeletal; Rats; Rats, Wistar; Swimming; Thyrotropin; Thyroxine

In this study, we aimed to evaluate the possible relations of serum leptin and thyroid hormones on insulin treatment of surgically thyroidectomized and streptozotosin induced diabetic group of rats and whether the thyroid hormones control the leptin levels or leptin levels affect the thyroid hormones in DM. The Sprague-Dawley rats were assigned to eight groups: group 1, control; group 2, diabetes (injected intraperitoneally (i.p.) with streptozotocin (stz) 55 mg/kg); group 3, diabetes + insulin (rats were treated with insulin, 7-10 U/kg/day, subcutaneously); group 4, surgically thyroidectomized control; group 5, thyroidectomized + diabetes (3 weeks after the surgical operation, injected i.p. with stz); group 6, thyroidectomized + diabetes + insulin; group 7, thyroidectomized + diabetes + insulin + thyroid hormone (after diabetes induction, rats were treated with insulin and thyroid hormone, levothyroxin sodium (T4; 2.5 microg/kg); group 8, thyroidectomized + diabetes + insulin + thyroid hormone (T4; 5 microg/kg). The free and total T3 and T4 levels were measured in serum samples by otoanalyzer, and leptin levels were determined by ELISA method. The main finding of our recent study is that the decreased levels of serum leptin during the diabetes, hypothyroidism, and hypothyroidism with diabetes can be regulated in different percentages with the treatment of insulin and various doses of thyroid hormone. The observations in our study suggest the idea that during diabetic hypothyroidism, without thyroid hormone treatment, insulin is not sufficient to balance the metabolic pathways so mediated effects of insulin in leptin regulation via thyroid hormones are an increased possibility.

Topics: Animals; Diabetes Mellitus, Experimental; Drug Therapy, Combination; Hypoglycemic Agents; Hypothyroidism; Insulin; Leptin; Rats; Rats, Sprague-Dawley; Thyroidectomy; Thyroxine; Triiodothyronine

Leptin regulates body weight by suppressing food intake and increasing energy expenditure. Alterations in thyroid hormone levels are also associated with changes in body weight but the effect of thyroid hormone deficiency on serum leptin in humans is unclear.. The aim of this study was to measure leptin levels and to investigate their associations with thyroid hormones in 22 women with severe hypothyroidism after total thyroidectomy, and in a group of 22 healthy euthyroid control female subjects matched for age and body mass index (BMI). Their plasma leptin, free thyroxine, triiodothyronine and TSH were measured.. Leptin levels in subjects and controls were (pg/mL) 18761.64+/-16973.96 and 18729.19+/-18014.05, respectively, p=0.9; leptin did not correlate with free thyroxine, triiodothyroinine and TSH: r=0.1039 and p=0.6453, r=0.0113 and p=0.9602, and r=-0.0525 and p=0.8165 for leptin and FT4, leptin and FT3, and leptin and TSH, respectively in subjects; r=-0.00056 and p=0.9980, r=0.248727 and p=0.2643, and r=-0.046919 and p=0.8357 for leptin and FT4, leptin and FT3, and leptin and TSH, respectively in controls. Leptin levels did not differ between subjects and controls and they did not correlate with thyroid hormones.. Leptin levels are not influenced by hypothyroidism and do not correlate with thyroid hormones in euthyroid and hypothyroid women.

Topics: Adult; Body Mass Index; Case-Control Studies; Female; Humans; Hypothyroidism; Leptin; Middle Aged; Thyroid Gland; Thyroidectomy; Thyrotropin; Thyroxine; Triiodothyronine

Leptin has been shown to modulate deiodinase type 1 (D1) and type 2 (D2) enzymes responsible for thyroxine (T4) to triiodothyronine (T3) conversion. Previously, it was demonstrated that a single injection of leptin in euthyroid fed rats rapidly increased liver, pituitary, and thyroid D1 activity, and simultaneously decreased brown adipose tissue (BAT) and hypothalamic D2 activity. We have now examined D1 and D2 activities, two hours after a single subcutaneous injection of leptin (8 microg/100 g BW) into hypo- and hyperthyroid rats. In hypothyroid rats, leptin did not modify pituitary, liver and thyroid D1, and thyroid D2 activity, while pituitary D2 was decreased by 41% (p<0.05) and hypothalamic D2 showed a 1.5-fold increase. In hyperthyroid rats, thyroid and pituitary D1, and pituitary and hypothalamic D2 were not affected by leptin injection, while liver D1 showed a 42% decrease (p<0.05). BAT D2 was decreased by leptin injection both in hypo- and hyperthyroid states (42 and 48% reduction, p<0.001). Serum TH and TSH showed the expected variations of hypo- and hyperthyroid state, and leptin had no effect. Serum insulin was lower in hypothyroid than in hyperthyroid rats and remained unchanged after leptin. Therefore, acute effects of leptin on D1 and D2 activity, expect for BAT D2, were abolished or modified by altered thyroid state, in a tissue-specific manner, showing an IN VIVO interplay of thyroid hormones and leptin in deiodinase regulation.

Topics: Adipose Tissue; Adipose Tissue, Brown; Animals; Hyperthyroidism; Hypothalamus; Hypothyroidism; Iodide Peroxidase; Leptin; Liver; Male; Nutritional Status; Organ Specificity; Pituitary Gland; Rats; Rats, Wistar; Thyroid Gland

Morbidly obese subjects may present with abnormal thyroid function tests but the reported data are scarce. Therefore, we studied the thyroid parameters in 144 morbidly obese patients, 110 females and 34 males, to assess the prevalence of hypothyroidism. Eleven percent (11.8%) carried the diagnosis of hypothyroidism and were undergoing levothyroxine (LT4) replacement therapy, 7.7% had newly diagnosed subclinical hypothyroidism, 0.7% had subclinical hyperthyroidism and 7.7% were euthyroid with positive antibodies (anti-thyroid peroxidase antibodies [TPOAb]). From the 144 subjects, we selected a cohort of 78 euthyroid subjects with negative TPOAb, who did not receive LT4 replacement or suppression therapy (the experimental group) and compared them to 77 normal-weight euthyroid subjects, TPOA-negative, matched for age and gender who served as controls. The experimental group had higher serum levels of triiodothyronine (T3), thyroxine (T4), free triiodothyronine (FT3), and thyrotropin (TSH) compared to the control group. Serum TSH concentration was associated with fasting serum insulin levels and insulin resistance but not with serum leptin levels, body mass index (BMI), fat mass, and lean body mass. In conclusion, in morbidly obese individuals, the prevalence of overt and subclinical hypothyroidism was high (19.5%). The morbidly obese subjects have higher levels of T3, FT3, T4, and TSH, probably the result of the reset of their central thyrostat at higher level.

Topics: Adult; Anthropometry; Blood Glucose; Body Mass Index; Cohort Studies; Female; Glucose Tolerance Test; Humans; Hypothyroidism; Insulin; Iodide Peroxidase; Leptin; Male; Middle Aged; Obesity, Morbid; Thyroid Function Tests; Thyroid Gland; Thyrotropin; Thyroxine; Triiodothyronine

The present study aimed to determine the influence of thyroid status on the timing of the pubertal resurgence in gonadotrophin-releasing hormone pulse generator activity [tracked by circulating luteinising hormone (LH) levels] in male rhesus monkeys. Six juvenile monkeys were orchidectomised and then treated with the antithyroid drug, methimazole, from 15-19 months until 36 months of age, at which time thyroxine (T(4)) replacement was initiated. Four additional agonadal monkeys served as controls. Blood samples were drawn weekly for hormonal assessments. Body weight, crown-rump length and bone age were monitored at regular intervals. By 8 weeks of methimazole treatment, plasma T(4) had fallen sharply, and the decline was associated with a plasma thyroid-stimulating hormone increase. In controls, plasma LH levels remained undetectable until the pubertal rise occurred at 29.3 +/- 0.2 months of age. This developmental event occurred in only half of the methimazole-treated animals before 36 months of age when T(4) replacement was initiated. The hypothyroid state was associated with a profound arrest of growth and bone maturation, but increased body mass indices and plasma leptin levels. T(4) replacement in methimazole-treated monkeys was associated with the pubertal rise in LH in the remaining three animals and accelerated somatic development in all six animals. Although pubertal resurgence in LH secretion occurred at a later chronological age in methimazole-treated animals compared to controls, bone age, crown-rump length and body weight at that time did not differ between groups. There were no long-term differences in plasma prolactin between groups. We conclude that juvenile hypothyroidism in male primates causes a marked delay in the pubertal resurgence of LH secretion, probably occasioned at the hypothalamic level. Whether this effect is meditated by an action of thyroid hormone directly on the hypothalamus or indirectly as a result of the concomitant deficit in somatic development remains to be determined.

Topics: Age Factors; Analysis of Variance; Animals; Antithyroid Agents; Body Size; Castration; Growth and Development; Hypothyroidism; Leptin; Luteinizing Hormone; Macaca mulatta; Male; Methimazole; Neurosecretory Systems; Prolactin; Sexual Maturation; Thyrotropin; Thyroxine

Topics: AMP-Activated Protein Kinases; Animals; Energy Metabolism; Glucose; Hypothyroidism; Insulin Resistance; Leptin; Multienzyme Complexes; Protein Serine-Threonine Kinases; Rats; Thyroid Hormones; Triiodothyronine; Triiodothyronine, Reverse

Leptin is considered to play a role in maintenance of energy balance and body weight by neuroendocrine mechanisms. The physiological mechanisms for thyroid hormone-induced alteration in serum leptin are not well known. In the present study, the relationship between thyroid hormones and leptin levels was investigated in patients with overt hypothyroidism and hyperthyroidism before and after successful treatment. Leptin levels were determined by radioimmunoassay and body mass index (BMI) was calculated for each subject. Serum leptin levels of 26 hypothyroid and 22 hyperthyroid patients were compared with those of 20 healthy volunteers who comprised the controls. Serum leptin levels of hypothyroid patients (28.4 +/- 4.1 ng/ml) were found to be significantly higher than the controls (19.1 +/- 3.2 ng/ml) (p<0.01), whereas hyperthyroid patients had lower levels (10.7 +/- 1.2 ng/ml) (p<0.01). In hypothyroid patients, serum leptin levels were decreased significantly to 20.6 +/- 2.1 ng/ml with thyroxin treatment (p<0.05). However, in hyperthyroid group, serum leptin levels were increased to 12.4 +/- 2.2 ng/ml by treatment (p>0.05). BMI was not changed with the treatment in either group. The serum leptin levels were correlated with BMI and thyrotropin (TSH) in both hypothyroid and hyperthyroid patients. Serum leptin levels are affected in thyroid disorders and the correlation of leptin with TSH is independent of thyroid hormones.

Topics: Adult; Body Mass Index; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Middle Aged; Thyroid Hormones; Thyrotropin; Thyroxine; Triiodothyronine

To determine the correlation of serum leptin with thyroid hormones in primary hypothyroid male patients and euthyroid lean and obese control subjects.. Comparative study.. Atomic Energy Medical Center, JPMC, Karachi, from 2001 to 2003.. In this study, three male groups were included. Those were 21 newly-diagnosed, untreated hypothyroid male patients (BMI, 25.12+/-2.31), 24 age and BMI matched euthyroid lean male subjects (BMI, 24.01+/-1.97) and 27 euthyroid obese male subjects (BMI, 33.02+/-2.67). Patients were selected from the thyroid OPD of Atomic Energy Medical Centre, JPMC, Karachi, while healthy, age and BMI matched euthyroid (lean and obese) were selected from general population after checking their thyroid profile. Patients and control subjects suffering from diabetes or other endocrinal diseases and taking thyroxin or steroid were excluded from the study. Serum leptin was measured by ELISA and FT4, FT3 and TSH were measured by radioimmunoassay (RIA), triacylglycerol (TG), total cholesterol (TC), high density lipoprotein cholesterol (HDL-C) by kit method, low density lipoprotein cholesterol (LDL-C) was calculated by the Friedwald s formula, and fasting blood sugar (FBS) by glucose oxidase method.. The mean +/- SEM values of leptin in male hypothyroid patients were 10.71+/-2.5 ng/ml, 8.27+/-1.91 in control group and 21.34+/-3.4 ng/ml in obese group, respectively. No significant difference was found in serum leptin levels between hypothyroid patients and their age, BMI matched control group, while obese control group had significantly higher values of leptin (<0.05). There was no significant correlation of leptin found with T4, T3, and TSH in hypothyroid patients and lean and obese control subjects. Triacylglycerol (TG, p < 0.005), total cholesterol (TC, p < 0.005) and low density lipoprotein cholesterol (LDL-C, p < 0.05) were significantly higher in hypothyroid patients as compared to control groups. This study observed that serum leptin level was significantly correlated with the BMI (r = 0.732, p < 0.005, r = 0.783, p < 0.005, r = 0.653, p < 0.005), in normal lean, obese and hypothyroid male patients respectively.. The results of this study suggest that there is no correlation between serum leptin and thyroid hormones in hypothyroid patients as well as in euthyroid subjects. Serum leptin is directly related with BMI.

Topics: Adult; Body Mass Index; Case-Control Studies; Humans; Hypothyroidism; Leptin; Male; Thyroid Hormones

Thyroid dysfunction is associated with metabolic changes that affect mass and adipocyte function, as well as lipid and carbohydrate metabolism. Adipose tissue performs complex metabolic and endocrine functions. Leptin and adiponectin are two of the most important adipocytokines, both involved in the regulation of intermediate metabolism. The aim of this study was to evaluate the relationships between thyroid status and circulating levels of the two adipose tissue hormones. We studied 15 patients with hyperthyroidism, 15 patients with hypothyroidism and 15 euthyroid subjects, all matched by sex, age and body mass index (BMI). Serum concentrations of free thyroxine, free tri-iodothyronine, thyrotropin, leptin and adiponectin and anthropometric parameters (weight, height, BMI) were assessed. No significant difference was found among the 3 groups, as assessed by Student's t-test, both for adiponectin and leptin. We conclude that metabolic changes associated with thyroid dysfunction are not related to variations in serum levels of adiponectin or leptin.

Topics: Adiponectin; Adipose Tissue; Adult; Anthropometry; Case-Control Studies; Female; Humans; Hyperthyroidism; Hypothyroidism; Intercellular Signaling Peptides and Proteins; Leptin; Male; Middle Aged; Proteins; Thyroid Gland; Thyrotropin; Thyroxine; Triiodothyronine

The proband, a 9-year-old Hispanic female, presented with hair loss, strabismus, and weight gain. On magnetic resonance imaging (MRI) she was found to have severe primary hypothyroidism and a large pituitary mass. In addition, acanthosis nigricans, obesity, and hyperinsulinism were observed. Findings were similar in three of four siblings. Thyroid peroxidase antibodies were detected in the father and three of four siblings. Although all family members were obese, and hyperinsulinemia with high proinsulin and C-peptide was found in all except one sibling, only the mother and one child had overt type 2 diabetes mellitus. Because of the unusual association of autoimmune thyroid disease, insulin resistance and obesity rather than insulin deficiency, we searched for possible genetic abnormalities. The HLA haplotypes did not cosegregate with autoimmune thyroid disease or insulin resistance. Mutational analysis of known obesity genes was done. Leptin was not deficient, and sequencing of the proband's DNA showed no mutations in the perixisome proliferator activated receptor (PPAR)-gamma, PPAR-gamma(2), PPAR-alpha or melanocortin 4 receptor genes. Maternally inherited diabetes and deafness was ruled out since no mutations were found in mitochondria DNA. Insulin receptor antibodies were not detected. In conclusion, the remarkably high incidence of childhood autoimmune hypothyroidism, pituitary enlargement, insulin resistance and obesity in this family is not linked to known HLA types or known gene defects.

Topics: Autoimmune Diseases; Child; Female; Hormones; Humans; Hypothyroidism; Insulin Resistance; Leptin; Magnetic Resonance Imaging; Male; Obesity; Pedigree; Pituitary Diseases

Congenital leptin deficiency is a rare, but treatable, cause of severe early-onset obesity. To date, two United Kingdom families of Pakistani origin carrying a frameshift/premature stop mutation, c.398delG (Delta133G), and one Turkish family carrying a missense mutation, c.313C>T (Arg(105)Trp), have been described. Affected subjects are homozygotes and manifest severe obesity and hyperphagia accompanied by metabolic, neuroendocrine, and immune dysfunction. The effects of recombinant leptin therapy have been reported in three children with the Delta133G mutation, and in all cases this has led to a dramatic resolution of clinical and biochemical abnormalities. We now report a Canadian child, of Pakistani origin but unrelated to the previously reported subjects, presenting with severe hyperphagia and obesity, who was found to be homozygous for the Delta133G mutation. In this child, 4 yr of therapy with sc injections of recombinant leptin provided additional evidence for the sustained beneficial effects of leptin replacement on fat mass, hyperinsulinemia, and hyperlipidemia. In addition, leptin administration corrected abnormal thyroid biochemistry and allowed the withdrawal of T(4) treatment, providing additional support for the role of leptin in the regulation of the human hypothalamic-pituitary-thyroid axis.

Topics: Body Composition; Body Weight; Bone Development; Child; Child, Preschool; Female; Follicle Stimulating Hormone; Homozygote; Humans; Hypothyroidism; Insulin; Leptin; Leukocyte Count; Lipids; Luteinizing Hormone; Obesity; Point Mutation

Both thyroid hormones and leptin affect sympathetic nervous system activity, basal metabolic rate, body fat mass, food intake, and thermogenesis, and each one also affects the actions of the other. We examined the alterations in serum leptin concentrations and leptin mRNA expression in hypothyroid rats and investigated the relation between serum leptin and leptin mRNA levels with the total adipose tissue mass and total body weight. Twenty male Wistar rats were divided into 2 groups, euthyroid and hypothyroid. Their body compositions were examined by Dual Energy X-ray Absorptiometry at the beginning and end of the study. Serum leptin concentrations and levels of leptin mRNA in the retroperitoneal white adipose tissue were measured at the end of the study. Serum leptin concentrations did not show any difference between the two groups (1.9 +/- 0.2 ng/ml in the hypo and euthyroid group, P > 0.05), but the fat mass of the hypothyroid rats were lower than the euthyroid rats (21.1 +/- 2.5 g in the euthyroid group and 14.2 +/- 1.9 g in the hypothyroid group, P > 0.05 between groups at the end of the study) although the difference between the groups was statistically not significant. Leptin mRNA level was significantly higher in the hypothyroid group than in the euthyroid group (21.6 +/- 1.6 vs. 15.1 +/- 1.2 ng respectively, P = 0.002) although the dissected retroperitoneal fat weight was significantly lower in the hypothyroid group versus the euthyroid group (1.0 +/- 0.2 vs. 1.8 +/- 0.2 g respectively, P = 0.013). In conclusion, the change of leptin mRNA expression in white adipocytes was thought to be the direct result of hypothyroidism or a compensatory response to metabolic changes caused by hypothyroidism.

Topics: Absorptiometry, Photon; Adipose Tissue; Animals; Body Composition; Hypothyroidism; Leptin; Male; Organ Size; Osmolar Concentration; Rats; Rats, Wistar; Retroperitoneal Space; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger

We investigated the influence of hypo- and hyperthyroidism on the ability of leptin to modulate TSH secretion. Two hours after receiving leptin (8 mug leptin/100 g BW; s.c.), hyperthyroid rats (10 mug thyroxine (T4)/100 g body weight (BW) for 5 days) showed a 1.7-fold increase in serum TSH (P<0.05); in hypothyroid rats, leptin had no effect. Hemi-pituitaries of hyperthyroid rats incubated with 10(-9) and 10(-7)M leptin showed reductions in TSH release of 40 and 50% respectively (P<0.05); incubation with 1:2000 and 1:500 dilutions of antiserum against leptin resulted in 3- and 4-fold higher TSH release (P<0.05 and P<0.001 respectively). However, in hypothyroid pituitaries leptin or the antiserum had no effect. The results suggest that the in vivo and in vitro responsiveness of TSH to leptin is abolished in hypothyroidism and is preserved in short-term hyperthyroidism, in comparison to previous reports in euthyroidism. In addition, the inhibitory action of pituitary leptin is enhanced in hyperthyroid glands, which may suggest a role for locally produced leptin in the suppression of TSH release associated with hyperthyroidism.

Topics: Animals; Hyperthyroidism; Hypothyroidism; Immune Sera; Leptin; Male; Organ Culture Techniques; Pituitary Gland, Anterior; Rats; Rats, Wistar; Thyroid Hormones; Thyrotropin

We investigated the effect of acute cold exposure, leptin, and the somatostatin analog octreotide (OCT) on thyroid type I (D1) and II (D2) deiodinase activities. Microsomal D1 and D2 activities were measured by the release of (125)I from (125)I-reverse triiodothyronine (rT(3)) under different assay conditions. Rats exposed to 4 degrees C (15, 30, 60, and 120 min) showed progressive reduction in thyroidal D1 and D2, reaching approximately 40% at 2 h (P < 0.05) despite increased circulating TSH (P < 0,05) associated with the higher thyroid D1 and D2 in hypothyroid rats. A single injection of leptin (8 microg/100 g body wt sc) induced increased thyroid and liver D1 (P < 0.05), but not thyroid D2, activities at 30 and 120 min, independently of the serum TSH rise shown only at 2 h. OCT (1 microg/kg body wt sc) increased D1 and D2 activity significantly 24 h after a single injection, with no changes in serum TSH. Therefore, leptin and somatostatin are potential physiological upregulators of thyroid deiodinases, and their low secretion during acute cold exposure may be a potential mechanism contributing to cold-induced reduction in thyroid deiodinase activity.

Topics: Animals; Cold Temperature; Hormones; Hypothyroidism; Iodide Peroxidase; Leptin; Liver; Male; Octreotide; Rats; Rats, Wistar; Thyrotropin; Thyroxine; Triiodothyronine

Adipose tissue is a hormonally active system that produces and releases different bioactive substances. Leptin, adiponectin and resistin are some of the recently discovered adipocytokines that participate in the regulation of intermediate metabolism. The aim of this study was to evaluate the circulating levels of leptin, adiponectin and resistin in patients with thyroid dysfunction before and after normalization of thyroid function with appropriate therapy.. We studied 20 patients with hyperthyroidism (16 women and 4 men; mean age 47.2 +/- 3.9 years) and 20 patients with hypothyroidism (17 women and 3 men; 51.5 +/- 4.1 years). A group of 20 euthyroid subjects served as control group. Patients were evaluated at the time of diagnosis and again after normalization of thyroid function with appropriate therapy. Serum concentrations of free T4 (FT4), total T3, TSH, insulin, leptin, adiponectin and resistin were measured in all subjects.. Hyperthyroid patients showed significantly decreased leptin levels in comparison with controls (11.0 +/- 1.1 vs. 30.4 +/- 5.0 microg/l, P < 0.001). No significant differences in adiponectin levels between hyperthyroid and control groups were found (27.8 +/- 4.0 vs. 46.0 +/- 12.0 mg/l, NS). Patients with hyperthyroidism exhibited reduced resistin levels in comparison with euthyroid subjects (6.4 +/- 0.8 vs. 8.4 +/- 0.7 microg/l, P < 0.05). Normalization of circulating thyroid hormone was accompanied by a nonsignificant increase in leptin levels (12.9 +/- 1.7 microg/l, P < 0.01 vs. control) and no significant modification both in adiponectin (32.0 +/- 7.1 mg/l, NS) and resistin (5.4 +/- 0.7 microg/l, NS) levels. Adjustment of adipocytokine concentrations for body mass index (BMI) showed that treatment of hyperthyroidism induced a significant reduction in adjusted resistin concentrations (0.21 +/- 0.03 vs. 0.28 +/- 0.03 microg/l/BMI units, P < 0.05), with no changes in adjusted leptin and adiponectin. Hypothyroid patients showed significantly lower leptin levels compared with the controls (16.0 +/- 3.5 vs. 30.4 +/- 5.0 microg/l, P < 0.05). Adiponectin levels in patients with hypothyroidism (71.8 +/- 16.0 mg/l) were similar to those in the control group and were not modified with therapy. Resistin levels were significantly reduced among hypothyroid patients (5.8 +/- 1.0 microg/l, P < 0.05), and were not increased after levothyroxine therapy. A significant rise in BMI-corrected leptin levels was observed after replacement therapy, with no changes in adiponectin- and resistin-corrected values.. The results suggest that (1) low serum leptin levels are present in both hyperthyroid and hypothyroid patients but are only increased after therapy in the latter; (2) resistin might be implicated in the insulin resistance state that accompanies thyrotoxicosis; and (3) inadequate secretion of adiponectin seems to have no role in metabolic changes associated with thyroid dysfunction.

Topics: Adiponectin; Adipose Tissue; Adult; Case-Control Studies; Cytokines; Female; Hormones, Ectopic; Humans; Hyperthyroidism; Hypothyroidism; Intercellular Signaling Peptides and Proteins; Leptin; Male; Middle Aged; Proteins; Regression Analysis; Resistin; Treatment Outcome

We examined the effects of thyroid status on cocaine- and amphetamine-regulated transcript and agouti-related peptide expression in the rat hypothalamus. Hypo- and hyperthyroidism were induced in adult male rats, and the mRNA content of cocaine- and amphetamine-regulated transcript and agouti-related peptide was determined using in situ hybridization. Hyperthyroidism induces a reduction in cocaine- and amphetamine-regulated transcript mRNA levels in the paraventricular nucleus, without any change in the arcuate and dorsomedial nuclei and in the lateral hypothalamic area. On the other hand, hypothyroidism had not effect on cocaine- and amphetamine-regulated transcript expression in any of these nuclei. Agouti-related peptide expression in the arcuate nucleus was not affected by the thyroid status. These data indicate that the increments in food intake in hyperthyroidism could be mediated, at least in some extent, by a decreased expression, at the paraventricular nucleus of the hypothalamus, of the anorexigenic cocaine- and amphetamine-regulated transcript peptides.

Topics: Agouti-Related Protein; Amitrole; Animals; Appetite Regulation; Body Weight; Down-Regulation; Enzyme Inhibitors; Hyperthyroidism; Hypothyroidism; Intercellular Signaling Peptides and Proteins; Leptin; Male; Nerve Tissue Proteins; Neurons; Paraventricular Hypothalamic Nucleus; Proteins; Rats; Rats, Sprague-Dawley; RNA, Messenger; Thyrotropin; Thyroxine; Up-Regulation

Leptin, a recently discovered protein produced in adipocytes, regulates body weight by suppressing food intake and/or increasing energy expenditure. Thyroid hormones, which increase the basal metabolic rate and thermogenesis, have been reported to be one of leptin's regulating factors because alternations in thyroid status might lead to compensatory changes in circulating leptin.. The aim of this study was to assess the influence of sequential changes in thyroid function on serum leptin levels.. The thyroid function status of 65 patients (55 women and 10 men, aged 40.6 +/- 15.2 years, mean +/- SD) with differentiated thyroid cancer who had received near-total thyroidectomy was studied before I-131 ablation therapy and after 2-4 and 6 months of levo-thyroxine suppressive therapy. Thirty-three (26 women, seven men; aged 41.0 +/- 10.4 years, mean +/- SD) of them were found to have become hypothyroid, then euthyroid and subsequently subclinically hyperthyroid. Their body mass index (BMI), body fat (%BF) by electrical bioimpedance, thyroid function and fasting serum leptin in these states were assessed and compared to those of 38 controls (30 women, eight men, aged 40.2 +/- 11.3 years, mean +/- SD). The controls had no past history or family history of thyroid diseases, and had the same range of BMI, between 20 and 30 kg/m2, as the patients.. No difference in serum leptin levels was found between patients and controls with comparable age, sex, and BMI distribution in the euthyroid state. Using a repeated measures anova, tests of TSH, free T4 (FT4), BMI,%BF and leptin were performed on the 33 patients with sex as a grouping factor and thyroid state as a time factor. The sex difference for %BF and leptin proved to be statistically significant (P < 0.0001, and P = 0.0003, respectively). Serum leptin levels increased significantly from the hypothyroid to the subclinical hyperthyroid state (P < 0.0001) with a more pronounced increase found in females than in males (P = 0.03). Change of BMI during sequential thyroid function alterations was significant (P = 0.04) while change in %BF was not significant (P = 0.09). Pearson correlation analysis showed that serum leptin levels significantly correlated with BMI, %BF, FT4, and TSH (all P < 0.05). Using the generalized estimating equations, multivariate regression analysis revealed that FT4 was a statistically independent predictor for serum leptin (P < 0.0001). While other parameters were held constant, the mean serum leptin level increased by 1.47 units when serum FT4 was increased by one unit.. In conclusion, our data indicate that circulating thyroid hormone plays a relevant role in regulating leptin metabolism independent of BMI and body fat.

Topics: Adult; Analysis of Variance; Body Composition; Body Mass Index; Case-Control Studies; Female; Humans; Hyperthyroidism; Hypothyroidism; Iodine Radioisotopes; Leptin; Male; Middle Aged; Sex Factors; Thyroid Hormones; Thyroid Neoplasms; Thyroidectomy; Thyrotropin; Thyroxine

To study the influence of thyroid hormones on the relationship between serum leptin and fat mass, as well as on energy and macronutrient balance.. Rats with different thyroid states were obtained by 7 and 15 days of treatment with the antithyroid drug propylthiouracil or with triiodothyronine (T3).. Energy balance, macronutrient balance and serum leptin concentrations.. In hypothyroid rats we found a decrease in metabolizable energy (ME) intake and energy expenditure together with an increase in lipid gain/lipid intake ratio and a decrease in protein gain/protein intake ratio. Consequently, body lipid percentage significantly increased compared to euthyroid rats. Hyperthyroid rats first increased energy expenditure and later ME intake, so that increased metabolism was balanced by increased intake, and energy gain was similar to that found in euthyroid rats.. These results indicate that T3 plays a major role in the maintenance of energy and lipid balance. Our results also indicate that an inverse relationship exists between T3 and leptin serum concentrations, and that this relationship is not only the result of changes in body fat stores induced by changed T3 concentrations.

Topics: Adipose Tissue; Animals; Body Composition; Energy Metabolism; Fatty Acids, Nonesterified; Hyperthyroidism; Hypothyroidism; Leptin; Male; Obesity; Rats; Rats, Wistar; Triiodothyronine

To evaluate whether subclinical hypothyroidism (SH) affects resting energy expenditure (REE) as well as body composition, lipid profile, and serum leptin in obese patients.. A total of 108 obese patients with SH defined as normal free thyroxine levels and thyroid-stimulating hormone (TSH) values of > 4.38 microU/ml (mean +/- 2 SD of the values of our reference group of obese patients with normal thyroid function) were compared with a group of 131 obese patients matched for age, sex, and body mass index (BMI) but with normal TSH levels. We assessed estimated daily caloric intake by 7-day recall, REE by indirect calorimetry, body composition by bioelectrical impedance analysis, serum leptin by radioimmunoassay, and lipid profile (i.e., total cholesterol, high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, and triglycerides).. All of the variables measured were not different between the euthyroid obese patients and those with SH. In a multiple regression model with REE expressed for kilograms of fat free mass (REE/kgFFM) as a dependent variable and percentage of fat mass, BMI, waist-to-hip ratio, age, TSH, free thyroxine, serum leptin, and caloric intake as independent variables, only percentage of fat mass was significantly correlated with REE/kgFFM in both groups. In the SH group only, BMI, waist-to-hip ratio, age, and TSH were related to REE/kgFFM and explained 69.5% of its variability. After dividing the patients with SH using a cutoff TSH value of 5.7 microU/ml, which represents 3 SD above the mean of TSH levels of the group of obese patients with normal thyroid function, only REE/kgFFM was significantly different and lower in the group of more severely hypothyroid patients.. In patients with obesity, SH affects energy expenditure only when TSH is clearly above the normal range; it does not change body composition and lipid profile. We suggest that, at least in obese patients, evaluation of TSH levels may be useful to rule out a possible impairment of resting energy expenditure due to a reduced peripheral effect of thyroid hormones.

Topics: Basal Metabolism; Body Composition; Calorimetry, Indirect; Case-Control Studies; Electric Impedance; Female; Humans; Hypothyroidism; Leptin; Lipids; Male; Mental Recall; Middle Aged; Obesity; Radioimmunoassay; Thyrotropin

Topics: Deficiency Diseases; Drug Resistance; Female; Growth Disorders; Humans; Hypothyroidism; Leptin; Obesity; Risk Assessment

Because leptin decreases food intake and increases energy expenditure, the possible influence of thyroid status on the leptin system has been investigated mainly in adults and animals. However, the data available at present are very confusing. The aim of the present study was to assess the possible interaction of thyroid hormones with the leptin system.. Serum free thyroxine (FT4), a biologically active thyroid hormone, and thyroid stimulating hormone (TSH), a sensitive and reliable index of thyroid status, were examined in 51 children (19 males, 32 females) with mass screening-detected congenital hypothyroidism on continuous L-thyroxine (L-T4) substitution therapy. The subjects were divided into younger (n = 35, aged 1 month-5 years) and older (n = 16, 6 years-11 years) children groups. Serum levels of leptin and thyroid hormones were measured in the subjects. Body mass index (BMI) was estimated by the formula bodyweight (kg)/height x height (m2), which is known as the Kaup index in younger children and BMI in older children and adults.. In the younger children group, serum leptin levels showed no correlation with serum TSH, FT4 or T4. In the older children group, serum leptin concentrations significantly correlated with T4 (r = 0.510, P < 0.05) and BMI (n = 16, r = 0.647, P < 0.01), but not with TSH or FT4.. The role of thyroid hormones in modulating leptin synthesis and secretion seems to have little, if any, clinical or biological relevance.

Topics: Body Mass Index; Child; Child, Preschool; Congenital Hypothyroidism; Female; Humans; Hypothyroidism; Infant; Leptin; Male; Mass Screening; Thyroid Hormones; Thyrotropin; Thyroxine

We have shown previously that continuous (6 days) intracerebroventricular (ICV) leptin infusion in normal rats resulted in decreases in food intake and body weight. A reduction of food intake imposed on control rats (pair-feeding), aimed at mimicking leptin-induced hyperphagia, produced a marked decrease in the expression of muscle uncoupling protein-3 (UCP-3), whereas ICV infusion of leptin prevented such a decrease in UCP-3. To investigate an involvement of thyroid hormones in this effect of leptin, plasma levels of these hormones were determined in ICV leptin-infused, ICV vehicle-infused ad libitum fed or pair-fed controls. ICV leptin infusion and pair-feeding resulted in decreased plasma thyroid-stimulating hormone (TSH) and T4 levels relative to ad libitum fed controls. ICV leptin infusion maintained plasma levels of T3, but the levels were decreased by pair-feeding. The activity of the enzyme (hepatic 5'-monodeiodinase) responsible for T4/T3 conversion was measured. In the leptin-infused group, the activity of 5'-monodeiodinase was maintained at the values measured in ad libitum fed rats; in pair-fed rats, activity was reduced. Thus, conversion of T4 to T3 is decreased by pair-feeding, whereas such is not the case during leptin infusion. To further substantiate an involvement of thyroid hormones in the effect of leptin on muscle UCP-3 expression, hypothyroid rats were ICV infused with leptin or vehicle. It was observed that in hypothyroid rats, ICV leptin was unable to maintain muscle UCP-3 expression at values measured in ad libitum fed controls. These results suggest that central leptin stimulates T3 production via an activation of T4 to T3 conversion, and that this stimulation could be responsible for the effect of leptin on muscle UCP-3 expression. Thyroid hormones could thus be important mediators of the effect of leptin on energy expenditure.

Topics: Animals; Carrier Proteins; Cerebral Ventricles; Energy Intake; Gene Expression Regulation; Hypothyroidism; Infusions, Parenteral; Iodide Peroxidase; Ion Channels; Leptin; Liver; Male; Mitochondrial Proteins; Muscle, Skeletal; Rats; Rats, Sprague-Dawley; Thyroidectomy; Thyrotropin; Thyroxine; Triiodothyronine; Uncoupling Protein 3

To determine the dependence of plasma leptin concentrations upon circulating noradrenaline (NA) and thyroid hormones (TH) in humans.. Cross-sectional study in 40 newly diagnosed untreated patients with primary thyroid disease, and 69 lean and obese euthyroid control subjects.. Plasma leptin, NA, free T3 (fT3) and TSH in the fasting state. Anthropometry and % body fat (electrical bioimpedance).. Leptin levels were highest in 37 obese euthyroid and 22 hypothyroid (median [interquartiles]31.5 [19.0- 48.0], 19.2 [11.5-31.5] ng ml(-1)), and lowest in 32 lean euthyroid and 18 hyperthyroid subjects (6.6 [3.9-14.4], 8.9 [5.5-11.1]; ANOVA, P< 0.0001). Plasma NA was similar in all groups (P= n.s.). In obese controls, TSH correlated with % body fat and leptin (r= 0.67, r= 0.61; P< 0.001). Treatment of hypothyroidism (n= 10) with T4 reduced leptin from 20.8 [11.8-31.6] to 12.9[4.6-21.2] (P= 0.005) with no change in BMI.. Thyroid status modifies leptin secretion independently of adiposity and NA. The data suggest leptin-thyroid interactions at hypothalamic and adipocyte level.

Topics: Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Norepinephrine; Obesity; Sympathetic Nervous System; Thyroid Gland; Thyrotropin; Thyroxine; Triiodothyronine

We examined a possible mechanistic interaction between leptin and thyroid hormones in rats with hypothyroidism induced by thyroidectomy (TX) and propylthiouracil administration. In study 1, the TX rats were treated by vehicle (V, n = 9) or by recombinant murine leptin (L, 0.3 mg. kg(-1). day(-1), n = 9) or were pair-fed (PF, n = 9) against L. In study 2, the TX rats were all given 3, 3'5'-triiodo-L-thyronine (T(3)) replacement (T, 5 microg. kg(-1). day(-1)) to correct hypothyroidism. They were then subdivided into three groups, namely, vehicle (T+V, n = 9), leptin (T+L, n = 10), and pair-feeding (T+PF, n = 9), similar to study 1 except for T(3) (T). Reduced food consumption and weight gain in the TX rats were reversed by T(3) replacement. Leptin suppressed food intake in the TX rats regardless of T(3) replacement. O(2) consumption (VO(2)) and CO(2) production (VCO(2)) were reduced in TX rats (P < 0.05 vs. normal) but were normalized by either T(3) or leptin treatment. T+L additively increased VO(2) and VCO(2) (P < 0.05 vs. TX, T(3), and L). The respiratory exchange ratio was unaltered in TX rats, with and without T(3), but was significantly reduced by L or T+L treatments. These results indicate that the metabolic actions of leptin are not dependent on a normal thyroid status and that the effects of leptin and T(3) on oxidative metabolism are additive.

Topics: Animals; Body Weight; Calorimetry, Indirect; Cell Respiration; Drug Interactions; Eating; Energy Metabolism; Hypothyroidism; Leptin; Male; Oxygen Consumption; Rats; Rats, Sprague-Dawley; Thyroidectomy; Triiodothyronine

The aim of the study is to determine the effect of short-term hypothyroidism on serum leptin levels. For this purpose 30 patients with past medical history of thyroidectomy for differentiated thyroid carcinoma were included. Serum leptin concentrations were similar when patients were on thyrotrophin-suppressive thyroxine therapy than when were admitted 4 weeks after stopping thyroxine treatment to perform a routine 131I scan in hypothyroid status (17.0 +/- s.e.m. 2.14 vs. 17.6 +/- s.e.m. 2.41 ng/ml; p = n.s.). Moreover, no differences were obtained when the analysis was performed separately in men and in women. We conclude that short-term hypothyroidism does not alter serum leptin concentrations. Furthermore, our results suggest that thyroid hormones do not operate through changes in serum leptin levels to regulate energy expenditure.

Topics: Female; Humans; Hypothyroidism; Leptin; Male; Middle Aged; Sex Characteristics; Thyroid Neoplasms; Thyroidectomy; Thyrotropin; Thyroxine; Time Factors

Topics: Antiretroviral Therapy, Highly Active; Female; France; Humans; Hypertriglyceridemia; Hypothyroidism; Leptin; Lipodystrophy; Male; Prevalence; Retrospective Studies; Sex Distribution; Thyrotropin; Thyroxine; Time Factors

This work was undertaken to examine the relationship between thyroid hormone and serum leptin concentration. This study included 368 Japanese female subjects (27 were affected with pretreatment hyperthyroidism, 68 with hyperthyroidism during treatment, 19 with pretreatment hypothyroidism, 57 with hypothyroidism during treatment and 197 euthyroid control subjects) and 60 control male subjects. In the control group, serum leptin levels in males were lower than those recorded in females (mean +/- SD; 4.6 +/- 4.1 vs 9.5 +/- 6.4 ng/ml, p < 0.001). The leptin values correlated well with body mass index (BMI) and body fat mass (BFM) in both control male and female subjects (p < 0.001 for each). The serum leptin levels in pretreatment female patients with hyperthyroidism were significantly lower than those in the pretreatment patients with primary hypothyroidism and control female subjects (6.4 +/- 3.0 vs 9.7 +/- 6.3, 9.5 +/- 6.4 ng/ml; p < 0.05, 0.02, respectively), but after adjusting for BMI and BFM, the difference was mainly due to the significantly different BMI and BFM. Furthermore, serum leptin did not change significantly during the treatment in hyper and hypothyroidism. There was no correlation between serum leptin and thyroid hormones or lipids levels in female patients with thyroid disorders. Adiposity and gender were the major determinants of leptin concentration, but thyroid hormones did not appear to play any relevant role in leptin synthesis and secretion in human.

Topics: Adolescent; Adult; Aged; Aged, 80 and over; Body Weight; Case-Control Studies; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Lipids; Middle Aged; Reference Values; Thyroid Diseases; Thyroid Hormones

Plasma leptin is considered to play a role in maintenance of energy balance and body weight by neuroendocrine mechanisms. Thyroid hormones are permissive for adrenergic activation, which in turn has been shown to decrease leptin expression. This study was therefore designed to test the hypothesis that hyperthyroidism results in lower leptin concentrations, whereas hypothyroidism leads to higher plasma leptin concentrations. In addition, the effects of normalization of thyroid function on plasma leptin were investigated.. Fasting plasma leptin concentrations and body fat mass (total body electrical conductivity) were measured in patients with overt hypothyroidism and hyperthyroidism before and after successful treatment. Plasma leptin, glucose, insulin and free fatty acid concentrations were monitored during an oral glucose tolerance test (OGTT 75 g).. Fasting plasma leptin concentrations were similar in lean patients, independently of their thyroid function (hyperthyroid 12.5 +/- 2 ng mL-1, hypothyroid 10.2 +/- ng mL-1, euthyroid 12.7 +/- 3 ng mL-1). In obese hypothyroid patients, plasma leptin was threefold higher (P < 0.0005) than in lean hypothyroid patients, twofold higher (P < 0.005) than in obese hyperthyroid patients matched for fat mass and 30% increased (P < 0.01) compared with obese euthyroid subjects. There were no differences between fasting and post-prandial (OGTT) leptin concentrations in any group. Normalization of thyroid function did not affect plasma leptin, which remained elevated (P < 0.005) in formerly obese hypothyroid patients. Plasma leptin was not associated with serum thyroid hormones but highly correlated with body mass index and body fat mass in all patients (r = 0.85, P < 0.001). Plasma leptin correlated with plasma insulin concentration only in hyperthyroid patients (P < 0.01, r = 0.64), who presented with blunted stimulation of insulin release and higher plasma glucose (P < 0.05) than hypothyroid subjects.. The results indicate that (a) the correlation of leptin with body fat mass is preserved in thyroid dysfunction, (b) plasma leptin is markedly increased in obese hypothyroid hyperinsulinaemic patients and (c) plasma leptin is not affected by oral glucose loading.

Topics: Adult; Blood Glucose; C-Peptide; Fatty Acids, Nonesterified; Female; Glucose Tolerance Test; Humans; Hydrocortisone; Hyperinsulinism; Hyperthyroidism; Hypothyroidism; Insulin; Leptin; Male; Middle Aged; Obesity; Proteins

The physiological consequences and mechanism(s) for thyroid hormone-induced alterations in serum leptin are not known. To address this, leptin expression in rats was evaluated in relationship to food intake, fat mass, and body temperature in rats with pharmacologically altered thyroid status. Total body weight, food intake, and temperature were decreased in hypothyroid rats. Fat weight was decreased in both chronically hypothyroid and hyperthyroid rats (n = 6/group). Serum leptin was linearly correlated with fat weight, epididymal and retroperitoneal fat leptin mRNA concentration, but not total body weight. Serum leptin was decreased in the chronically hyperthyroid rats. When fat weight was used as a covariant, serum leptin was not different between the three groups. Epididymal fat leptin mRNA was higher in euthyroid (n = 7) than in hypothyroid and hyperthyroid rats. Retroperitoneal fat leptin mRNA was not affected by thyroid status. A positive linear relationship between food intake and free triiodothyronine (FT3) index was observed, but not between food intake and serum leptin alone. In a time course study, serum leptin, epididymal fat leptin mRNA content, and fat weight did not change within 24 hours of high-dose triiodothyronine (T3) (n = 6/group), but both temperature and epididymal fat S14 mRNA content rapidly increased. These findings demonstrate that thyroid state influences circulating leptin levels, but primarily does so indirectly through the regulation of fat mass. Leptin does not influence core body temperature across thyroidal state. Finally, thyroid state is more important to regulate food intake, through an as yet undefined mechanism, than are thyroid state-associated changes in serum leptin.

Topics: Adipose Tissue; Animals; Body Temperature; Body Weight; Energy Intake; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Organ Size; Proteins; Rats; Rats, Sprague-Dawley; Regression Analysis; RNA, Messenger; Thyroid Gland; Transcription, Genetic; Triiodothyronine

In this study, plasma leptin concentrations were measured in rats artificially rendered hyper- or hypothyroid by administration of thyroxine or TRH, by administration of methimazole, or by thyroidectomy. Compared with those in untreated controls, leptin immunoreactivity was not affected in the hyperthyroid state, but was significantly increased in hypothyroid animals. Methimazole administration for longer time periods caused a stepwise increase in plasma leptin immunoreactivity. Greatest leptin concentrations were seen after 28 days of methimazole. Seven days after withdrawal of the methimazole, leptin concentrations no longer differed from those observed in control animals. In hypothyroid animals, expression of leptin mRNA was increased in both retroperitoneal and epididymal adipose tissue, whereas no difference was seen for subcutaneous or mesenteric fat. Incubation of rat leptin with plasma of eu- or hypothyroid rats and subsequent HPLC analysis of leptin plasma peaks gave no indication of an altered hormone stability. We conclude that, in hypothyroid rats, leptin concentrations may be increased as a result of stimulated leptin synthesis in retroperitoneal and epididymal adipose tissue.

Topics: Adipose Tissue; Analysis of Variance; Animals; Antithyroid Agents; Chromatography, Gel; Chromatography, High Pressure Liquid; Hyperthyroidism; Hypothyroidism; Leptin; Male; Methimazole; Radioimmunoassay; Rats; Rats, Wistar; RNA, Messenger; Thyroidectomy; Thyrotropin-Releasing Hormone; Thyroxine

A 6.5-year-old male with normal linear growth, despite septo-optic dysplasia, panhypopituitarism and a deficient GH/IGF axis, is presented. In addition to measuring IGF-I, IGF-II and IGFBP-3, serum IGFBP-1, -2, -4 and -5 were measured. A human osteosarcoma cell line was used to assess growth-promoting activity in the patient's serum. The role of leptin in linear growth in this case was investigated. There was no evidence for hyperinsulinism or hyperandrogenism. GH was undetectable upon multiple stimulation. GHBP was elevated. Serum IGF-I (25 microg/l), IGF-II (194 microg/l), IGFBP-3 (0.4 mg/l), and IGFBP-5 (87 microg/l) levels were low compared to age-matched prepubertal children. Serum IGFBP-4 level was normal. Molecular size of IGF-II in the patient's serum was normal, suggesting normal IGF-II bioavailability. Human osteosarcoma cell proliferation in response to the patient's serum was similar to sera from age-matched normal controls. Leptin levels were markedly elevated. Osteoblast cell proliferation was not stimulated by leptin. The data demonstrate that normal growth and osteoblast cell proliferation in this patient is not mediated by GH, total IGFs, insulin, or leptin, and suggest the presence of a yet unidentified growth factor or mechanism. The case offers a detailed picture of binding proteins in a case of growth without GH. It introduces osteoblast cell proliferation as a method of assessing serum growth-promoting activity in such cases. It adds IGF-II and leptin to the list of excluded growth-promoting candidates in GH-independent growth, and further demonstrates our incomplete understanding of the phenomenon of growth.

Topics: Body Height; Child; Human Growth Hormone; Humans; Hydrocortisone; Hypoglycemia; Hypothyroidism; Immune Sera; Insulin-Like Growth Factor Binding Protein 3; Insulin-Like Growth Factor I; Insulin-Like Growth Factor II; Karyotyping; Leptin; Male; Thyroxine; Vision Disorders

We investigated whether thyroid status modulates serum leptin concentrations and body composition as determined by bioelectric impedance analysis (BIA). The percent body fat mass (%FM) in male Graves' disease was significantly lower than that in age- and sex- matched normal subjects, at the levels of 11.4+/-6.4% (mean+/-SD) vs 19.9+/-9.2% for men (n=12, P<0.05) but not for women (22.6+/-7.6% vs 24.9+/-13.1%, n=28). In contrast, in female hypothyroidism (n=11) %FM was significantly higher than that in normal subjects (32.9+/-11.5%, P<0.01). Among other body composition parameters, the percentage of body water (%BW), and lean body mass (LBM) were significantly lower in hypothyroid patients, and the ECM (extracellular mass)/BCM (body cell mass) ratio was significantly (P<0.0001) increased in Graves' disease which was the result of marked depletion of BCM with concomitant expansion of ECM. The serum leptin levels were significantly decreased in male Graves' patients (2.3+/-0.7 ng/ml, P<0.05), whereas in female Graves' patients (8.8+/-5.9 ng/ml) and patients with hypothyroidism (9.5+/-7.6 ng/ml), the levels were not different from those of normal controls matched for BMI or %FM. There was a positive correlation between serum leptin levels and %FM in female Graves' patients (r=0.635, P=0.001) and in hypothyroid patients (r=0.801, P=0.014) but not in male Graves patients. There was no significant relationship between serum leptin levels and thyroid hormones, TRAb, or TSAb. In euthyroid obese subjects there was a positive relationship between serum leptin levels and serum TSH levels (r=0.37, P<0.01). These results suggest that hyperthyroidism is characterized by the decreased fat mass and serum leptin levels in men, but female patients appear to be resistant to the effect of thyroid hormones. Together with previous reports, thyroid status has a minor role in the regulation of serum leptin levels.

Topics: Adult; Autoantibodies; Body Composition; Body Mass Index; Body Water; Electric Impedance; Female; Graves Disease; Humans; Hypothyroidism; Immunoglobulins, Thyroid-Stimulating; Leptin; Male; Middle Aged; Receptors, Leptin; Receptors, Thyrotropin; Thyroid Hormones; Thyrotropin

Leptin, the obese gene product, is secreted exclusively by adipocytes and is thought to act as a lipostatic signal that regulates body weight homeostasis. We previously reported that thyroid hormone is one of the up-regulating factors of leptin in vitro. T3, at physiological concentrations, stimulates leptin mRNA expression and leptin secretion by 3T3-L1 adipocytes. The aim of this study was to explore the role of thyroid hormone in the regulation of leptin in humans.. A total of 59 non-obese women aged 38.4 +/- 1.8 years (mean +/- SEM) were studied: 19 patients with hyperthyroidism, 17 patients with hypothyroidism, and 23 normal control subjects. The correlation between serum leptin concentrations and body mass index (BMI) was analyzed, and serum leptin levels were compared among the three groups.. Serum leptin concentrations were measured by radioimmunoassay.. Serum leptin concentrations after logarithmic transformation were correlated significantly (P < 0.05) with BMI in the hyperthyroid (r = 0.46), the hypothyroid (r = 0.84), and normal (r = 0.63) groups. Even though age, body weight, and BMI were similar in all groups, serum leptin levels in the hypothyroid patients (5.30 +/- 1.12 micrograms/l) were significantly (P < 0.05) lower than in the hyperthyroid and normal groups (6.87 +/- 0.66 and 6.58 +/- 0.68 micrograms/l, respectively).. These results indicate that thyroid hormone may play an important role in the appropriate secretion of leptin in humans.

Topics: Adult; Analysis of Variance; Body Mass Index; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Proteins; Regression Analysis

Leptin, the product of the obese gene, is produced by white adipocytes. The release of leptin, as well as leptin mRNA content, was enhanced in adipocytes isolated from hypothyroid rats. The administration of tri-iodothyronine (T3) 8 h before death inhibited leptin release by adipocytes incubated for 6 or 24 h. Direct addition of T3 to pieces of adipose tissue enhanced the loss of leptin mRNA seen over 24 h in the presence of dexamethasone plus the beta3-adrenergic agonist Cl 316,243. In contrast, if pieces of adipose tissue were incubated with dexamethasone plus insulin, enhanced the T3 accumulation of leptin mRNA. These results indicate that T3 enhances net adipocyte leptin mRNA accumulation in a condition that approximates the fed state (presence of insulin) but inhibits leptin mRNA accumulation in a condition that approximates the fasted state (absence of insulin).

Topics: Adipocytes; Adrenergic beta-Agonists; Animals; Dexamethasone; Dioxoles; Glyceraldehyde-3-Phosphate Dehydrogenases; Hypothyroidism; Insulin; Leptin; Lipolysis; Male; Proteins; Rats; Rats, Sprague-Dawley; RNA, Messenger; RNA, Ribosomal, 18S; Triiodothyronine

Leptin, the product of the ob gene, is an important circulating signal for the regulation of body weight. In the present study the role of immunoreactive leptin (leptin-IR) was investigated in functional thyroid disease. Serum leptin-IR levels of 23 hypothyroid and 19 hyperthyroid patients were compared with 21 controls. Leptin-IR was quantified by a specific RIA. In hyperthyroid patients, leptin-IR was not different from controls. Serum leptin-IR levels were significantly increased in hypothyroid patients (21.0 +/- 2.7 micrograms/l vs controls 10.8 +/- 2.1 micrograms/l, P = 0.0044). When serum leptin of hypothyroid patients was compared with euthyroid controls of the same body mass index the difference was still significant (P = 0.0333 by paired Student's t-test). This might indicate that elevation of the serum leptin level does not merely reflect changes in body weight secondary to hypothyroidism, but might be increased to overcome the gain of body weight caused by hypothyroidism.

Topics: Body Mass Index; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Middle Aged; Proteins; Radioimmunoassay

Leptin, the product of the adipose specific ob gene, regulates food intake and energy expenditure. However, little is known about the effects of thyroid status on plasma leptin levels in women. We determined fasting plasma leptin levels before and 1 month after restoration of euthyroidism in 20 female patients with hypothyroidism, 20 female patients with hyperthyroidism and 20 age and BMI-matched female controls. To restore the normal thyroid function patients with hypothyroidism were treated with levothyroxine, whereas patients with hyperthyroidism were treated with propylthiouracil. Plasma leptin levels were measured by a RIA method with a sensitivity of 0.5 microgram/l. Leptin levels were significantly lower in patients with hypothyroidism before treatment (4.17 +/- 2.58 micrograms/l) than in patients with hyperthyroidism (6.80 +/- 4.3 micrograms/l; z = -2.06, p = 0.037). Leptin levels were significantly higher in hyperthyroid patients than in the control group (3.71 +/- 1.69 micrograms/l, z = -2.44, p = 0.014) whereas leptin levels in the hypothyroid patients were not significantly different from those in control subjects (z = -0.16, p = 0.87). Restoration of euthyroid state was not associated with a significant change in leptin levels either in the hypothyroid (from 4.17 +/- 2.58 to 5.22 +/- 3.4 micrograms/l; z = -1.74, p = 0.08) or in the hyperthyroid group (from 6.80 +/- 4.37 micrograms/l to 7.93 +/- 6.25 micrograms/l z = -0.89, p = 0.37), although a tendency for leptin to increase was observed in both groups. There was no correlation between plasma leptin and FT3, FT4, TSH, or BMI either before or after therapy in both groups. Leptin levels were significantly correlated with BMI in the control group (r = -0.53, p = 0.018). We conclude that plasma leptin levels are increased in hyperthyroidism and unchanged in hypothyroidism. Furthermore, our study demonstrates that mean plasma leptin levels are not influenced by short term restoration of euthyroidism in both hypothyroidism and hyperthyroidism, although an effect of long-term treatment may not be excluded.

Topics: Adult; Body Mass Index; Fasting; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Propylthiouracil; Proteins; Thyroid Hormones; Thyroxine

Leptin is an adipose tissue hormone whose plasma levels reflect energy stores. Although pathological thyroid function is related to changes in energy expenditure and body composition, its possible influence on leptin levels remains to be determined. The objective of the study was to provide new data on the relationship between plasma leptin levels and thyroid function. Sixteen patients with primary autoimmune hypothyroidism, and seventeen patients with primary autoimmune hyperthyroidism were prospectively studied from the time of clinical diagnosis and then every 6-8 weeks until thyroid function was completely restored (plasma tri-iodothyronine, free thyroxine and TSH within normal ranges). Fasting immunoreactive plasma leptin levels and body composition (bioelectrical impedance) were assessed at every visit. Plasma leptin levels were correlated with percentage body fat, as previously described, both at the time of diagnosis (r=0.60, P<0.001) and after normalisation of thyroid function (r=0.63, P< 0.001). There was no correlation between serum leptin and thyroid hormone levels at any time during the study. Plasma leptin levels as well as percentage body fat (BF) did not change significantly from the beginning until the end of the study, either in the hypothyroid (leptin: 14.54+/-2.61 vs 16.92+/-2.61 ng/ml, BF: 25.25+/-2.47 vs 25.90+/-3.22%) or in the hyperthyroid (leptin: 10.69+/-1.81 vs 12.36+/-2.19 ng/ml, BF: 22.01+/-2.31 vs 25.39+/-1.13%) group of patients. In conclusion, these results suggest that thyroid function per se is not a major determinant of plasma leptin levels.

Topics: Aged; Autoimmune Diseases; Body Mass Index; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Proteins; Regression Analysis; Thyroid Hormones; Thyrotropin; Thyroxine; Triiodothyronine

The present studies were designed to examine the regulation of leptin release in primary cultures of adipocytes from fed hypothyroid rats incubated with hormones for 24 hours. Leptin release was increased in the presence of dexamethasone, while the decrease in leptin mRNA content over a 24-hour incubation was reduced by dexamethasone. Dexamethasone did not affect the glyceraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA or 18S RNA content of adipocytes. Insulin increased leptin release by adipocytes in both the absence and presence of dexamethasone. Although insulin also prevented the loss of leptin mRNA, this effect was less than that observed for GAPDH mRNA or 18S RNA content. In isolated adipocytes, the loss of almost half the 18S RNA content over a 24-hour incubation was prevented in the presence of insulin but not oxytocin or epidermal growth factor (EGF). The specific beta3 catecholamine agonist CI 316,243 inhibited the effects of dexamethasone on leptin release and leptin mRNA accumulation, as did EGF, without affecting 18S RNA content. Oxytocin inhibited the increase in leptin release due to dexamethasone without affecting leptin mRNA levels. These data indicate that although dexamethasone and insulin are positive regulators of leptin release, only dexamethasone specifically prevented the loss of leptin mRNA in cultured rat adipocytes. In contrast, insulin, but not dexamethasone, prevented the marked loss in 18S RNA observed over a 24-hour incubation of rat adipocytes.

Topics: Adipocytes; Adrenergic beta-Agonists; Animals; Colforsin; Dexamethasone; Dioxoles; Epidermal Growth Factor; Glyceraldehyde-3-Phosphate Dehydrogenases; Hypothyroidism; Insulin; Leptin; Male; Oxytocin; Proteins; Rats; Rats, Sprague-Dawley; RNA, Messenger; RNA, Ribosomal, 18S; Tetradecanoylphorbol Acetate

Thyroid hormones and leptin are both involved in the regulation of energy metabolism. Serum leptin concentrations were measured in women with thyrotoxicosis (n = 21, mean age 45 years) or hypothyroidism (n = 14, mean age 44 years) before and 3 months after restoration of the euthyroid state. Serum leptin concentration tended to increase in both hypothyroid (14.7+/-3.5 vs 17.8+/-3.9 ng/ml, p = 0.06) and thyrotoxic (11.9+/-1.7 vs 14.4+/-2.0, p = 0.08) women after treatment (values given as mean +/- SE in the untreated and the euthyroid state respectively). Body mass index (BMI) was lower in thyrotoxic women than in hypothyroid women in the untreated state (22.1+/-0.7 vs. 26.2+/-1.9, p < 0.05). BMI was not different between both groups after treatment (24.5+/-0.7 vs. 26.3+/-2.1, p = 0.37), due to an increase of BMI in the thyrotoxic women; BMI did not change in the hypothyroid group. After controlling for BMI in a multivariate regression analysis, serum leptin concentrations were lower in hypothyroid women than in thyrotoxic women (p < 0.05), whereas posttreatment values of leptin did not differ (p = 0.44). When leptin concentrations were expressed as standard deviation scores (Z-scores) from the mean value of female controls matched for BMI and age as reported earlier, Z-scores were lower in the hypothyroid than in the thyrotoxic women (-0.63+/-0.21 vs. 0.53+/-0.18, p = 0.001). After treatment, Z-scores did not deviate from the expected values (0.05+/-0.28 vs. 0.08+/-0.16, p = 0.98). Z-scores differed before and after treatment in both hypothyroid (p = 0.01) and thyrotoxic (p = 0.02) patients. In conclusion, these data obtained in thyrotoxic and hypothyroid women indicate that thyroid states modulates serum leptin concentrations independent of BMI, with a small decrease in hypothyroidism and a small increase in thyrotoxicosis.

Topics: Adult; Aged; Body Mass Index; Female; Humans; Hypothyroidism; Leptin; Methimazole; Middle Aged; Multivariate Analysis; Propylthiouracil; Proteins; Regression Analysis; Thyroid Hormones; Thyrotoxicosis; Thyrotropin; Thyroxine; Triiodothyronine

To study interactions between leptin and the pituitary-thyroid axis, both in euthyroid and dysthyroid states.. We investigated the relationships of plasma leptin to levels of free thyroid hormones and TSH in 18 patients with newly diagnosed hyperthyroidism, 22 with newly diagnosed primary hypothyroidism, and 32 lean (body mass index [BMI] < 30) and 37 obese (BMI > 30 kg/m2) euthyroid subjects. Hypothyroid patients were restudied during thyroxine replacement treatment.. Median [interquartile range] plasma leptin concentrations were highest in obese euthyroid subjects (31.5 [19.0-48.0] and in untreated hypothyroid patients (19.2 [11.5-31.5]), and lowest levels in untreated hyperthyroid patients (8.9 [5.5-11.1]) and lean euthyroid control subjects (6.6 [3.9-14.4] micrograms/l (Kruskall-Wallis one-way analysis of variance; P < 0.0001). In euthyroid subjects, plasma leptin levels were higher in obese than in lean subjects (P < 0.00001). In obese subjects plasma levels of TSH correlated with percentage body fat (r = 0.67; P < 0.001) and plasma leptin (r = 0.61; P < 0.001). In untreated hyperthyroid subjects plasma leptin was unrelated to free T3, and in untreated hypothyroidism plasma leptin was unrelated to either free T3 or TSH concentrations (all P = NS). In untreated hyperthyroid, but not hypothyroid, patients plasma leptin concentrations correlated with BMI (r = 0.57; P = 0.02). Treatment of hypothyroidism with thyroxine resulted in a significant reduction in plasma leptin concentrations from 20.8 (11.8 to 31.6) to 12.9 (4.6-21.2) micrograms/l (P = 0.005), but BMI did not change significantly in the hypothyroid subjects being studied prospectively.. (i) In euthyroid subjects, plasma leptin and TSH levels correlate, and both are positively correlated with adiposity. (ii) Plasma leptin was significantly elevated in hypothyroid subjects, to levels similar to those seen in obese euthyroid subjects. (iii) Treatment of hypothyroidism resulted in a reduction in the raised plasma leptin levels. The data are consistent with the hypothesis that leptin and the pituitary-thyroid axis interact in the euthyroid state, and that hypothyroidism reversibly increases leptin concentrations.

Topics: Adult; Analysis of Variance; Body Mass Index; Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Middle Aged; Obesity; Pituitary Gland; Proteins; Thyroid Diseases; Thyroid Gland; Thyrotropin; Thyroxine; Triiodothyronine

The level of leptin [the obese (ob) gene product] mRNA is markedly elevated in hypothyroid male rats. The administration of tri-iodothyronine (T3) to hypothyroid rats resulted in a 40% decrease in leptin mRNA at 8 h. This decrease in leptin mRNA was associated with a parallel decline in circulating leptin levels of about 50% at 24 h. Conversely, beta 3-adrenergic receptor mRNA levels were markedly decreased in epididymal adipose tissue from hypothyroid rats. T3 administration resulted in a 147% increase at 12 h in beta 3-adrenergic receptor mRNA. There was a corresponding increase due to T3 in the lipolytic response to the specific beta 3-adrenergic agonist CL 316,243 that paralleled the increase in beta 3-adrenergic receptor mRNA. T3-mediated changes in leptin and beta 3-adrenergic receptor mRNAs were blocked by cycloheximide, suggesting the involvement of short-lived proteins in these effects. The present results indicate that T3 has opposite effects to those of insulin on the white adipose tissue of rats with respect to leptin mRNA expression.

Topics: Adipocytes; Adipose Tissue; Animals; Blood Proteins; Body Weight; Hypothyroidism; Leptin; Lipolysis; Male; Obesity; Protein Biosynthesis; Proteins; Rats; Receptors, Adrenergic, beta; Receptors, Adrenergic, beta-3; RNA, Messenger

Leptin, the product of the ob gene, is a recently discovered hormone secreted by adipocytes. Serum leptin concentrations increase in correlation with the percentage of body fat, but besides that, little is known about the physiological actions of leptin in humans. The aim of this study was to assess the influence of hypo- and hyperthyroidism on serum leptin levels. Thirty-two patients (16 with hypothyroidism and 16 with hyperthyroidism) were studied before and after treatment with replacement doses of T4 (hypothyroid patients) or methimazole (hyperthyroid), when thyroid function was normal. Control serum for each group was obtained from healthy age-, sex-, and body mass index-matched subjects. Plasma leptin levels were measured by specific RIA. The mean leptin level in the hypothyroid patients was lower before treatment (4.7 +/- 0.7 microg/L) than that in the controls (8.6 +/- 1.4 microg/L; P < 0.02) and was lower than that during treatment with T4 and normalization of thyroid function in the same group of patients (6.3 +/- 0.8 microg/L; P < 0.05). Leptin levels in the hyperthyroid patients were similar before (7.2 +.0 1.1 microg/L) and after normalization of thyroid function following treatment with methimazole (6.2 +/- 1.1 microg/L) and were similar to the control value (8.8 +/- 1.4 microg/L). In conclusion, leptin levels are decreased in the hypothyroid patients and unchanged in hyperthyroidism. Whether decreased leptin levels may contribute to the decreased energy expenditure in patients with hypothyroidism merits further investigation.

Topics: Female; Humans; Hyperthyroidism; Hypothyroidism; Leptin; Male; Methimazole; Proteins; Thyroxine

Leptin, the product of the ob gene, is secreted by adipocytes and has been shown to decrease appetite and increase energy expenditure. Leptin mRNA in adipocytes correlates with body wt, and serum leptin levels correlate with body fat. Alterations in thyroid status are frequently associated with changes in body wt. To evaluate the possible influence of thyroid status on the leptin system, we have measured serum leptin concentrations in thyroidectomized rats infused either with placebo, or with different doses of T4 (0.8 to 8.0 microg/100 g body wt per day) or T3 (0.25 to 2.0 microg/100 g body wt per day), covering a wide range of thyroid hormone concentrations, from overt hypothyroidism to hyperthyroidism. Intact animals infused with placebo were used as euthyroid controls. Infusion of T4 or T3 into thyroidectomized rats resulted in a decrease in serum leptin levels with respect to the thyroidectomized animals infused with placebo. When compared to the control group, serum leptin levels were decreased in the groups infused with the higher T4 and T3 doses, and tended to be elevated in the thyroidectomized animals infused with placebo. The leptin/body wt ratio was markedly increased in thyroidectomized rats infused with placebo, and decreased in the animals infused with the higher thyroid hormone doses. In conclusion, thyroid hormones exert a negative influence on serum leptin concentrations, which is greater than expected by the changes in body wt The precise mechanism of this influence remains to be elucidated.

Topics: Analysis of Variance; Animals; Body Weight; Dose-Response Relationship, Drug; Female; Hyperthyroidism; Hypothyroidism; Leptin; Proteins; Rats; Rats, Wistar; Thyroid Gland; Thyroid Hormones; Thyroidectomy; Thyrotropin; Thyroxine; Triiodothyronine

Leptin is the protein product of the ob gene, secreted by adipocytes. It has been suggested that it may play an important role in regulating appetite and energy expenditure. The aim of this study was to evaluate a possible interaction of thyroid hormones with the leptin system. We studied 114 adult patients (65 females and 49 males): 36 were affected with primary hypothyroidism (PH), 38 with central hypothyroidism (CH) and 40 with thyrotoxicosis (TT). Patients with CH were studied both before and after 6 months of L-thyroxine replacement therapy. Body mass index (BMI; kg/m2), thyroid function and fasting serum leptin were assessed in all patients. Since BMI has been proved to be the major influencing variable of circulating leptin levels, data were expressed as standard deviation score (SDS) calculated from 393 male and 561 female controls matched for age and BMI. No difference in SDS was recorded between males and females whatever the levels of circulating thyroid hormones. In males, no significant difference was recorded among the SDSs of PH (-0.36 +/- 1.2), TT (-0.35 +/- 1.2) and CH (0.01 +/- 1.4) patients. Females with PH had an SDSs significantly lower than TT females (-0.77 +/- 1.0 vs -0.06 +/- 1.2; P < 0.02), while no significant differences between CH (-0.34 +/- 0.7) and TT females or between CH and PH females were observed. SDS in CH patients after 6 months of L-thyroxine therapy significantly varied only in females (0.25 +/- 1.4). In conclusion, circulating thyroid hormones do not appear to play any relevant role in leptin synthesis and secretion. However, as females with either overt hypo- or hyper-thyroidism or central hypothyroidism after L-thyroxine therapy show differences in their SDSs, a subtle interaction between sex steroids and thyroid status in modulating leptin secretion, at least in women, may occur.

Topics: Adult; Aged; Body Mass Index; Female; Humans; Hypothyroidism; Leptin; Male; Middle Aged; Proteins; Thyroid Diseases; Thyroid Hormones