angiotensinogen and Obesity

Excess adiposity can induce adverse sequelae in multiple cell types and organ systems. The transition from the lean to the obese state is characterized by fundamental cellular changes at the level of the adipocyte. These changes affect the local microenvironment within the respective adipose tissue but can also affect nonadipose systems. Adipocytes within fat pads respond to chronic nutrient excess through hyperplasia or hypertrophy, which can differentially affect interorgan crosstalk between various adipose depots and other organs. This crosstalk is dependent on the unique ability of the adipocyte to coordinate metabolic adjustments throughout the body and to integrate responses to maintain metabolic homeostasis. These actions occur through the release of free fatty acids and metabolites during times of energy need - a process that is altered in the obese state. In addition, adipocytes release a wide array of signalling molecules, such as sphingolipids, as well as inflammatory and hormonal factors (adipokines) that are critical for interorgan crosstalk. The interactions of adipose tissue with the kidney - referred to as the adipo-renal axis - are important for normal kidney function as well as the response of the kidney to injury. Here, we discuss the mechanistic basis of this interorgan crosstalk, which clearly has great therapeutic potential given the increasing rates of chronic kidney disease secondary to obesity and type 2 diabetes mellitus.

Topics: Adipokines; Adiponectin; Adipose Tissue; AMP-Activated Protein Kinases; Angiotensin II; Angiotensinogen; Ceramidases; Diabetes Mellitus, Type 2; Humans; Inflammation; Kidney Diseases; Leptin; Macrophages; Obesity; Receptors, Adiponectin; Signal Transduction

Angiotensinogen (AGT) is the sole precursor of all angiotensin peptides. Although AGT is generally considered as a passive substrate of the renin-angiotensin system, there is accumulating evidence that the regulation and functions of AGT are intricate. Understanding the diversity of AGT properties has been enhanced by protein structural analysis and animal studies. In addition to whole-body genetic deletion, AGT can be regulated in vivo by cell-specific procedures, adeno-associated viral approaches and antisense oligonucleotides. Indeed, the availability of these multiple manipulations of AGT in vivo has provided new insights into the multifaceted roles of AGT. In this review, the combination of structural and functional studies is highlighted to focus on the increasing recognition that AGT exerts effects beyond being a sole provider of angiotensin peptides.

Topics: Angiotensinogen; Animals; Atherosclerosis; Blood Pressure; Conserved Sequence; Fatty Liver; Humans; Mice; Mice, Transgenic; Obesity; Renin; Renin-Angiotensin System; Structure-Activity Relationship

Angiotensinogen (AGT) has a central role in maintaining blood pressure and fluid balance. DNA methylation is an epigenomic modification maintaining a steady pattern in somatic cells. Herein we summarize the link between AGT regulation and DNA methylation. DNA methylation negatively regulates AGT expression and dynamically changes in response to continuous AGT promoter stimulation. High-salt intake and excess circulating aldosterone cause DNA demethylation around the CCAAT enhancer-binding protein-binding sites, thereby converting the phenotype of AGT expression from an inactive to an active state in visceral adipose tissue. Salt-dependent hypertension may be partially affected by increased adipose AGT expression. Because angiotensin II is a well-established aldosterone-releasing hormone, stimulation of adipose AGT by aldosterone creates a positive feedback loop. This effect is pathologically associated with obesity-related hypertension, although it would be physiologically favorable for humans to efficiently retain their body fluid. The clear difference in DNA demethylation patterns between aldosterone and cortisol indicates a difference in the respective target DNA-binding sites between mineralocorticoid and glucocorticoid receptors in the AGT promoter. Stimulation-induced interactions between transcription factors and target DNA-binding sites trigger DNA demethylation. Dynamic changes in DNA methylation occur in relaxed chromatin regions both where transcription factors actively interact and where transcription is initiated. In contrast to rapid histone modifications, DNA demethylation and remethylation will progress relatively slowly over days or years. A wide variety of stimuli in daily life will continue to slowly and dynamically change DNA methylation patterns throughout life. Wise choices of beneficial stimuli will improve health.

Topics: Angiotensinogen; DNA Methylation; Gene Expression Regulation; Gene-Environment Interaction; Humans; Hypertension; Obesity; Promoter Regions, Genetic

Obesity is a pandemic and a serious global health concern. Obesity is a risk factor for multiple conditions and contributes to multi-morbidities, resulting in increased health costs and millions of deaths each year. Obesity has been associated with changes in brain structure, cognitive deficits, dementia and Alzheimer׳s disease. Adipokines, defined as hormones, cytokines and peptides secreted by adipose tissue, may have more widespread influence and functionality in the brain than previously thought. In this review, six adipokines, and their actions in the obese and non-obese conditions will be discussed. Included are: plasminogen activator inhibitor-1 (PAI-1), interleukin-6 (IL-6), tumor necrosis factors alpha (TNF-α), angiotensinogen (AGT), adiponectin and leptin. Their functionality in the periphery, their ability to cross the blood brain barrier (BBB) and their influence on dementia processes within the brain will be discussed.

Topics: Adipokines; Adiponectin; Angiotensinogen; Animals; Brain; Dementia; Humans; Interleukin-6; Leptin; Models, Biological; Obesity; Plasminogen Activator Inhibitor 1; Tumor Necrosis Factor-alpha

Alterations in the renin angiotensin aldosterone system (RAAS) contribute to the underlying pathophysiology of insulin resistance in humans; however, individual differences in the treatment response of insulin resistance to RAAS blockade persist. Thus, understanding inter-individual differences in the relationship between the RAAS and insulin resistance may provide insights into improved personalized treatments and improved outcomes. The effects of the systemic RAAS on blood pressure regulation and glucose metabolism have been studied extensively; however, recent discoveries on the influence of local tissue RAAS in the skeletal muscle, heart, vasculature, adipocytes, and pancreas have led to an improved understanding of how activated tissue RAAS influences the development of insulin resistance and diabetes in humans. Angiotensin II (ANGII) is the predominant RAAS component contributing to insulin resistance; however, other players such as aldosterone, renin, and ACE2 are also involved. This review examines the role of local ANGII activity on insulin resistance development in skeletal muscle, adipocytes, and pancreas, followed by a discussion of the other RAAS components implicated in insulin resistance, including ACE2, Ang1-7, renin, and aldosterone.

Topics: Adipose Tissue; Aldosterone; Angiotensin I; Angiotensin II; Angiotensin-Converting Enzyme 2; Angiotensinogen; Animals; Blood Pressure; Glucose; Hemodynamics; Humans; Insulin Resistance; Models, Animal; Muscle, Skeletal; Obesity; Peptide Fragments; Peptidyl-Dipeptidase A; Renin-Angiotensin System

Elevated blood glucose, obesity, high blood pressure, elevated triglycerides and low high density lipoprotein (HDL) cholesterol are well accepted risk factors in the development of coronary artery disease. Clustering of at least three of these factors in an individual is defined as metabolic syndrome (MetS). Obesity is a central pathological mechanism in the disease and it is expected that the incidence of this condition will increase dramatically within the next years. The visceral adipose tissue is not only an energy depot but also an endocrine organ which produces a large number of bioactive molecules, the so called adipokines. In the setting of obesity, the over-production of proinflammatory and pro-thrombotic adipokines is associated with insulin resistance. This mechanism represents the pathophysiological basis for the development of MetS. Inflammation has a central role in the pathogenesis of MetS and in mediating its impact on the development of cardiovascular disease. Knowledge of these mechanisms has relevance in the context of preventive and therapeutic strategies.

Topics: Adiponectin; Adolescent; Adult; Angiotensinogen; Atherosclerosis; Biomarkers; Cardiovascular Diseases; Chemokine CCL2; Endothelium, Vascular; Humans; Inflammation; Insulin Resistance; Interleukin-6; Intra-Abdominal Fat; Leptin; Life Style; Metabolic Syndrome; Obesity; Plaque, Atherosclerotic; Plasminogen Activator Inhibitor 1; Prognosis; Resistin; Risk; Tumor Necrosis Factor-alpha

In addition to its role as an energy store, adipose tissue also acts as an endocrine organ, synthesizing and secreting hormones and cytokines. This review discusses angiotensin II (Ang-II), the biologically active component of the renin-angiotensin system (RAS). Evidence suggests that a functioning RAS is present in adipose tissue. Animal studies have demonstrated that modifying the amount of Ang-II in the body (eg, using RAS knockout/transgenic animal models or the pharmacological treatment of animal models to prevent the formation or action of Ang-II) directly influences body weight and adiposity. In humans, body fat is correlated with levels of angiotensinogen, a precursor of Ang-II. Thus, the treatment of obesity could be improved through the use of substances that interfere with Ang-II.

Topics: Adipose Tissue; Adiposity; Angiotensin II; Angiotensinogen; Animals; Body Weight; Disease Models, Animal; Humans; Obesity; Receptors, Angiotensin; Renin-Angiotensin System

In the recent years we have begun to appreciate that adipose tissue is more than just a passive repository for excess energy. It is a highly active endocrine organ secreting a range of bioactive peptides with both local and distant action collectively called 'adipokines' or 'adipose tissue hormones'. They include leptin, adiponectin, resistin, acylation-stimulating protein (ASP), plasminogen activator inhibitor-1 (PAI-1), tumor necrosis factor alpha (TNFalpha), interleukin 6, and angiotensinogen. Some of these are specific fat-related hormones that are involved in regulating energy homeostasis, carbohydrate and lipid metabolism, vascular homeostasis and immune response. Moreover, the tissue is implicated in the metabolism of some steroid hormones. Disturbances in adipokine production may have potential repercussions in the pathophysiology of obesity, insulin resistance, and dyslipidemia. Reversal or alleviation of these changes seem to be a promising target for management of the mentioned disorders. The objective of this review is to summarise the most important aspects of biology, actions and regulation of these hormones with a special emphasis on the most recent literature.

Topics: Acylation; Acyltransferases; Adipocytes; Adiponectin; Angiotensinogen; Humans; Hydrocortisone; Insulin Resistance; Interleukin-6; Leptin; Obesity; Plasminogen Activator Inhibitor 1; Resistin; Tumor Necrosis Factor-alpha

Obesity is a worldwide pandemic that causes a multitude of co-morbid conditions.However, there has been slow progress in understanding the basic pathophysiology that underlies co-morbid conditions associated with obesity. Recently, there has been intense interest in the role of inflammation in obesity. Using the inflammatory hypothesis, many of the mechanisms by which co-morbid conditions are associated with obesity are being elucidated.. We searched the literature and reviewed all relevant articles. We focused on hormones and cytokines that have been associated with other inflammatory conditions such as sepsis and systemic inflammatory response syndrome.. Angiotensinogen (AGT), transforming growth factor beta (TGFbeta), tumor necrosis factor alpha (TNFalpha), and interleukin six (IL-6) are all elevated in obesity and correlate with several markers of adipocyte mass. These mediators have detrimental effects on hypertension, diabetes, dyslipidemia, thromboembolic phenomena, infections, and cancer. Weight loss results in a reduction of inflammatory mediators and a diminution of the associated co-morbid conditions.. The success of weight loss surgery in treating the complications associated with obesity is most probably related to the reduction of inflammatory mediators. While some aspects of bariatric physiology remain unclear, there appears to be a strong association between obesity and inflammation, thereby rendering obesity a chronic inflammatory state. A clearer understanding of the physiology of obesity will allow physicians who treat the obese to develop better strategies to promote weight loss and improve the well-being of millions of individuals.

Topics: Acute-Phase Proteins; Adipose Tissue; Angiotensin II; Angiotensinogen; C-Reactive Protein; Humans; Inflammation; Insulin Resistance; Interleukin-6; Liver; Lymphotoxin-alpha; Morbidity; Obesity; Tumor Necrosis Factor-alpha; Weight Loss

Overfeeding of rodents leads to increased local formation of angiotensin II due to increased secretion of angiotensinogen from adipocytes. Whereas angiotensin II promotes adipocyte growth and preadipocyte recruitment, increased secretion of angiotensinogen from adipocytes also directly contributes to the close relationship between adipose-tissue mass and blood pressure in mice. In contrast, angiotensin II acts as an antiadipogenic substance in human adipose tissue, and the total increase in adipose-tissue mass may be more important in determining human plasma angiotensinogen levels than changes within the single adipocyte. However, as increased local formation of angiotensin II in adipose tissue may be increased especially in obese hypertensive subjects, a contribution of the adipose-tissue renin-angiotensin system to the development of insulin resistance and hypertension is conceivable in humans, but not yet proven. Insulin resistance may be aggravated by the inhibition of preadipocyte recruitment, which results in the redistribution of triglycerides to the liver and skeletal muscle, and blood pressure may be influenced by local formation of angiotensin II in perivascular adipose tissue. Thus, although the mechanisms are still speculative, the beneficial effects of ACE-inhibition and angiotensin-receptor blockade on the development of type 2 diabetes in large clinical trials suggest a pathophysiological role of the adipose-tissue renin-angiotensin system in the metabolic syndrome.

Topics: Adipocytes; Adipose Tissue, Brown; Angiotensin II; Angiotensinogen; Animals; Humans; Hypertension; Insulin Resistance; Metabolic Syndrome; Mice; Obesity; Peptidyl-Dipeptidase A; Rats; Renin; Renin-Angiotensin System; Thermogenesis

Essential hypertension is a complex disease influenced by different genetic and environmental factors. The renin-angiotensin system (RAS) is implicated in blood pressure regulation. Angiotensinogen (AGT) is the precursor of the biologically active angiotensin II (Ang II). Initial studies on hypertensive siblings and case-control studies indicated the important role of the angiotensinogen gene (AGT) for the predisposition to essential hypertension, preeclampsia and obesity-related hypertension. Recently, different AGT polymorphisms had been identified and analyzed in case-control studies. The aim of present studies is the analysis of potentially functional AGT variants (C-532T, G-6A), which might be responsible for the regulation of gene expression and therefore AGT generation. The A-6 allele is in complete linkage disequilibrium with the T235 allele and is associated with higher AGT expression in vitro. Segregation linkage analysis demonstrated that the C-532T polymorphism influences plasma AGT variability more significantly than the G-6A variant. Since the C-532T polymorphism is located within a AP-2 consensus element, functional promoter analyses are required. The understanding of the molecular basis of RAS in essential hypertension may provide us with new and more specific pharmacological agents and perhaps the ability to individualize antihypertensive treatment.

Topics: Alleles; Angiotensinogen; Case-Control Studies; Female; Genetic Predisposition to Disease; Humans; Hypertension; Linkage Disequilibrium; Obesity; Polymorphism, Genetic; Pre-Eclampsia; Pregnancy

Recent clinical and experimental data have radically modified the concept of adipose tissue as one solely devoted to energy storage and release. Adipose tissue is a target organ for glucocorticoids. Several studies of the function of the hypothalamic-pituitary-adrenal axis in obese subjects have failed to reach conclusive results. An innovative finding is that adipose tissue produces cortisol from its inactive precursor, cortisone. Identification of leptin, a hormone synthesised by adipose tissue, has ushered in the modern view that it is a true endocrine organ. Leptin is produced by subcutaneous and to a lesser extent by visceral adipose tissue. It has a central role in body weight and especially fat stores regulation, but is also involved in several complex functions, including the physiological processes associated with puberty. Angiotensinogen (AGT), another hormone synthesised in abundance by adipose tissue, is produced in larger amounts by visceral than subcutaneous fat. In addition, in man and animals adipose tissue appears to possess the whole renin-angiotensin system (RAS), suggesting that angiotensin II, the final effector of the system, is locally produced. The function of adipose RAS is not well known; besides participating, together with other hormones and substances, in adipocyte differentiation and fat tissue growth, it could be involved in the pathogenesis of the complications of obesity. All these findings have opened interesting prospects and are expected to yield further stimulating insights into the physiopathology of the adipose organ.

Topics: Adipose Tissue; Angiotensinogen; Female; Glucocorticoids; Humans; Hypothalamo-Hypophyseal System; Leptin; Male; Obesity; Pituitary-Adrenal System

Adipose tissue is an important source of angiotensinogen (AGT). Recent evidence shows that a local renin-angiotensinogen system (RAS) is present in human adipose tissue and may act as a distinct system from plasma RAS. In obese patients, the involvement of angiotensin II (angII) as a consequence of increased plasma AGT secreted from adipose tissue has been proposed in the development of hypertension. Another role of AGT via angII in the development of adipose tissue is supported by the following: (i) in vitro, angII stimulates the production and release of prostacyclin from adipocytes, which in turn promotes the differentiation of precursor cells into adipocytes; (ii) ex vivo and in vivo, both angII and (carba)prostacyclin promote the formation of new fat cells; and (iii) AGT -/- mice exhibit a slowing down of adipose tissue development, as compared to wild-type mice. Altogether the data are consistent with an autocrine/paracrine mechanism implicating AGT, angII and prostacyclin in adipose tissue development.

Topics: Adipocytes; Adipose Tissue; Angiotensin II; Angiotensinogen; Epoprostenol; Gene Expression Regulation; Humans; Obesity

The present review discusses recent research showing adipose tissue to be highly metabolically active, producing and releasing many different bioactive compounds besides free fatty acids (FFA) such as tumor necrosis factor alpha (TNF alpha), leptin, acetylation stimulating protein (ASP), plasminogen activator inhibitor-1 (PAI-1), cholesterol ester transfer protein (CETP), prostaglandins and oestrogens. Most of these compounds have autocrine effects on the adipose cells and they are presumably involved in the physiological regulation of blood flow, growth and metabolism of the adipose tissue. When the adipose tissue becomes enlarged, as seen in association with obesity, it has now been shown that several of the compounds produced in the adipose tissue (TNF, PAI-1, CETP etc.) may be directly involved in the pathogenesis of some of the complications commonly seen in association with obesity such as insulin resistance, hypertension, enhanced thrombogenesis, and premature atherosclerosis.

Topics: Adipose Tissue; Angiotensin II; Angiotensinogen; Fatty Acids, Nonesterified; Gonadal Steroid Hormones; Growth Substances; Humans; Obesity; Plasminogen Activator Inhibitor 1; Prostaglandins; Tumor Necrosis Factor-alpha

In view of the known vasodilatory effects of glucagon-like peptide-1 and exenatide, we investigated the effects of exenatide on vasoactive factors. We analysed blood samples and mononuclear cells (MNCs) from a previous study, collected after a single dose and 12 weeks of exenatide or placebo treatment in a series of 24 patients with type 2 diabetes mellitus. After exenatide treatment, plasma concentrations of atrial natriuretic peptide, cyclic guanyl monophosphate (cGMP) and cyclic adenyl monophosphate increased significantly at 12 weeks. Plasma cGMP and adenylate cyclase expression in MNCs increased significantly after a single dose. Angiotensinogen concentration fell significantly 2 hours after a single dose and at 12 weeks, while renin and angiotensin II levels fell significantly only after a single dose and not after 12 weeks of treatment. Exenatide also suppressed the plasma concentration of transforming growth factor-β and the expression of P311 in MNCs at 12 weeks. Thus, exenatide induces an increase in a series of vasodilators, while suppressing the renin-angiotensin system. These changes may contribute to the overall vasodilatory effect of exenatide.

Topics: Adenylyl Cyclases; Angiotensinogen; Anti-Obesity Agents; Antihypertensive Agents; Atrial Natriuretic Factor; Blood Pressure; Cyclic AMP; Cyclic GMP; Diabetes Mellitus, Type 2; Exenatide; Gene Expression Regulation; Glucagon-Like Peptide 1; Humans; Hypoglycemic Agents; Leukocytes, Mononuclear; Nerve Tissue Proteins; Obesity; Oncogene Proteins; Peptides; Renin-Angiotensin System; Reproducibility of Results; Single-Blind Method; Transforming Growth Factor beta; Venoms

Conjugated linoleic acid (CLA) refers to a group of positional and geometrical conjugated dienoic isomers of linoleic acid. Our aim was to investigate the effect of 8-week dietary CLA supplementation on blood pressure, concentrations of plasma adiponecin, leptin, and as well as angiotensin-converting enzyme (ACE) activity in obese hypertensive subjects.. Eighty obese individuals with stage 1 uncontrolled essential hypertension were randomized in a double-blind, placebo-controlled trial. Participants were randomized to a daily dose of 4.5 g/day CLA (nine 0.5-g capsules; a 50:50 isomer blend of c 9,t 11 and t 10,c 12 CLA) with 37.5 mg/day ramipril (group 1) or placebo with 37.5 mg/day ramipril (group 2) for 8 weeks. Baseline and endpoint systolic BP, diastolic BP, and concentrations of plasma adiponecin, leptin, angiotensinogen, and ACE activity were measured.. Treatment with CLA significantly enhanced the reduction effect of ramipril on systolic BP and diastolic BP (P < 0.05). It also increased plasma adiponectin concentration (P < 0.05) and decreased plasma concentrations of leptin and angiotensinogen (P < 0.05); however, significant change was not observed in ACE activity.. An 8-week long supplementation of CLA enhanced the effect of ramipril on blood pressure reduction in treated obese hypertensive patients. The antihypertensive effect of CLA might be related to the changed secretion of hypertensive adipocytokines in plasma.

Topics: Adiponectin; Angiotensin-Converting Enzyme Inhibitors; Angiotensinogen; Blood Pressure; Dietary Supplements; Dose-Response Relationship, Drug; Double-Blind Method; Drug Synergism; Female; Follow-Up Studies; Humans; Hypertension; Leptin; Linoleic Acids, Conjugated; Male; Middle Aged; Obesity; Ramipril; Treatment Outcome

A close relationship between obesity and hypertension has been recognized, and plasma angiotensinogen concentrations (p-AGT) have been reported to correlate with blood pressure (BP). However, little is known about AGT in obese patients with hypertension. To define the role of AGT in obese hypertension, we measured p-AGT in obese patients. The subjects were 42 obese patients diagnosed on the basis of a body mass index (BMI) of more than 25 kg/m2, and 21 sex- and age-matched nonobese patients, whose BMI was less than 25 kg/m2. The hypertensive patients had not previously received antihypertensive drugs. P-AGT (P < .05) and mean BP (P < .0001) was increased in the obese patients as compared with the nonobese patients. Positive correlations were observed between BMI and p-AGT, mean BP and p-AGT, and BMI and mean BP (all P < .05). However, after adjustment for blood pressure, p-AGT was not different between groups, and after adjustment a positive correlation remained only between BMI and mean BP. These results suggested the possible involvement of increased p-AGT in hypertension in obese patients, although this may be a secondary change to hypertension or obesity.

Topics: Adult; Angiotensinogen; Blood Pressure; Body Mass Index; Female; Humans; Hypertension; Male; Middle Aged; Obesity

High-fat diet (HFD)-induced obesity is a cause of resistant hypertension. We have shown a possible link between histone deacetylases (HDACs) and renal angiotensinogen (Agt) upregulation in the HFD-induced hypertension, whereas the underlying mechanisms remain to be elucidated. Here, using a HDAC1/2 inhibitor romidepsin (FK228) and siRNAs, we determined roles of HDAC1 and HDAC2 in HFD-induced hypertension and found the pathologic signaling axis between HDAC1 and Agt transcription. Treatment with FK228 canceled the increased blood pressure of male C57BL/6 mice induced by HFD. FK228 also blocked upregulation of renal Agt mRNA, protein, angiotensin II (Ang II) or serum Ang II. Activation and nuclear accumulation of both HDAC1 and HDAC2 occurred in the HFD group. The HFD-induced HDAC activation was associated with an increase in deacetylated c-Myc transcription factor. Silencing of HDAC1, HDAC2 or c-Myc in HRPTEpi cells decreased Agt expression. However, only HDAC1 knockdown, but not HDAC2, increased c-Myc acetylation, suggesting selective roles in two enzymes. Chromatin immunoprecipitation assay revealed that HFD induced the binding of HDAC1 and deacetylated c-Myc at the Agt gene promoter. A putative c-Myc binding sequence in the promotor region was necessary for Agt transcription. Inhibition of c-Myc downregulated Agt and Ang II levels in kidney and serum, ameliorating HFD-induced hypertension. Thus, the abnormal HDAC1/2 in the kidney may be responsible for the upregulation of the Agt gene expression and hypertension. The results expose the pathologic HDAC1/c-myc signaling axis in kidney as a promising therapeutic target for obesity-associated resistant hypertension.

Topics: Angiotensin II; Angiotensinogen; Animals; Diet, High-Fat; Hypertension; Male; Mice; Mice, Inbred C57BL; Obesity; Proto-Oncogene Proteins c-myc; Signal Transduction

The study aim was to analyse the frequency of polymorphic variants of angiotensinogen gene polymorphism (AGT 704T>C, rs699) in essential arterial hypertension (EAH) patients.. Seventy-two individuals with EAH and hypertension‑mediated organ damage (stage 2), moderate, high or very high cardiovascular risks were involved in the case-control study. Among them, 70.84 % (51) were females and 29.16 % (21) were males; mean age was 59.87±7.98 y. The control group consisted of fifty practically healthy individuals at relevant age (49.13±6.28 y) and with relevant sex distribution (62 % were females, 38 % were males). AGT (704T>C) gene polymorphism was examined by RT-PCR.. The distribution of genotypes in the study group was as follows: TT - 14 %, TC - 60 %, CC - 26 %, which corresponded to the distribution in the control group - 16 %, 54 % and 30 %, respectively, and did not deviate from the Hardy-Weinberg equilibrium. Smoking, type 2 diabetes mellitus (DM2) and obesity increased the relative risk of EAH in the examined population 2.5 times [OR=2.81; p=0.049], 3.75 times [OR=4.68; p=0.005] and almost twofold [OR=2.90; p=0.004], respectively. The probability of EAH increases fourfold with the angiotensin II elevation in the serum. Genotypes and alleles of the AGT (704T>C) gene were not significant risk factors for EAH and DM2 in the studied population. However, the TC-genotype (lesser T-allele) increases the risk of obesity in EAH patients more than 1.5 times [OR=2.93; p=0.03]. In addition, the T-allele increases the risk for blood pressure (BP) to elevate up to grade 2-3 [OR=3.64; p < 0.001].. One-way ANOVA analysis confirmed the AGT (704T>C) gene polymorphism to be associated with systolic and diastolic BP elevation (F=7.80; p < 0.001 and F=4.90; p=0.01, respectively), especially in TT-genotype carriers (p < 0.05), and with body mass index increase, albeit only in women (F=13.94; p < 0.001) (Tab. 4, Fig. 3, Ref. 26). Text in PDF www.elis.sk Keywords: angiotensinogen gene (AGT 704T>C), diabetes mellitus type 2, arterial hypertension, obesity, risk.

Topics: Aged; Angiotensinogen; Blood Pressure; Case-Control Studies; Diabetes Mellitus, Type 2; Female; Gene Frequency; Genotype; Humans; Hypertension; Male; Middle Aged; Obesity; Polymorphism, Genetic

During type 2 diabetes (T2D) and hypertension there is stimulation of renal proximal tubule angiotensinogen (AGT), but whether urinary excretion of AGT (uAGT) is an indicator of glomerular damage or intrarenal RAS activation is unclear. We tested the hypothesis that elevations in uAGT can be detected in the absence of albuminuria in a mouse model of T2D.. Male C57BL/6 mice (N = 10) were fed a high fat (HFD; 45% Kcal from fat) for 28 weeks, and the metabolic phenotype including body weight, blood pressures, glucose, insulin, ippGTT, HOMA-IR, and cholesterol was examined. In addition, kidney Ang II content and reactive oxygen species (ROS) was measured along with urinary albumin, creatinine, Ang II, and AGT.. All parameters consistent with T2D were present in mice after 12-14 weeks on the HFD. Systolic BP increased after 18 weeks in HFD but not NFD mice. Intrarenal ROS and Ang II concentrations were also increased in HFD mice. Remarkably, these changes paralleled the augmentation uAGT excretion (3.66 ± 0.50 vs. 0.92 ± 0.13 ng/mg by week 29; P < 0.01), which occurred in the absence of overt albuminuria.. In HFD-induced T2D mice, increases in uAGT occur in the absence of overt renal injury, indicating that this biomarker accurately detects early intrarenal RAS activation.

Topics: Albuminuria; Angiotensinogen; Animals; Biomarkers; Diabetes Mellitus, Experimental; Diabetes Mellitus, Type 2; Diet, High-Fat; Disease Models, Animal; Hypertension; Male; Mice; Mice, Inbred C57BL; Obesity; Renin-Angiotensin System

(1) Aims: Diabesity, defined as diabetes occurring in the context of obesity, is a serious health problem that is associated with an increased risk of premature heart attack, stroke, and death. To date, a key challenge has been to understand the molecular pathways that play significant roles in diabesity. In this study, we aimed to investigate the genetic links between diabetes and obesity in diabetic individuals and highlight the role(s) of shared genes in individuals with diabesity. (2) Methods: The interactions between the genes were analyzed using the Search Tool for the Retrieval of Interacting Genes (STRING) tool after the compilation of obesity genes associated with type 1 diabetes (T1D), type 2 diabetes (T2D), and maturity-onset diabetes of the young (MODY). Cytoscape plugins were utilized for enrichment analysis. (3) Results: We identified 546 obesity genes that are associated with T1D, T2D, and MODY. The network backbone of the identified genes comprised 514 nodes and 4126 edges with an estimated clustering coefficient of 0.242. The Molecular Complex Detection (MCODE) generated three clusters with a score of 33.61, 16.788, and 6.783, each. The highest-scoring nodes of the clusters were

Topics: Adipocytes; Angiotensinogen; Diabetes Mellitus, Type 1; Diabetes Mellitus, Type 2; Fibrinogen; Gene Regulatory Networks; Lipolysis; Obesity; Oxidative Stress; Receptor, IGF Type 1; Receptors, LDL; Renin; Shc Signaling Adaptor Proteins

The increased prevalence of obesity and associated comorbidities, such as cardiovascular and metabolic diseases, has gained attention worldwide, and the renin-angiotensin system (RAS) has been pointed out as a possible link. Thus, the present study aimed to verify the possible association between angiotensinogen (AGT) or angiotensin-converting enzyme (ACE) polymorphisms with overweight and obesity in adults.. The present investigation was a population-based cross-sectional study including 1,567 individuals from an urban area in Brazil. Anthropometric, clinical and biochemical parameters were evaluated, and all individuals were genotyped for the ACE I/D and AGT M/T polymorphisms.. The prevalence of overweight was higher among men, whereas obesity was more prevalent among women. However, the frequency of ACE or AGT polymorphisms was similar among body mass index (BMI) categories. In addition, the mean age-adjusted BMI averages did not change significantly for ACE or AGT polymorphisms, regardless of sex or BMI category. The age-adjusted BMI average for the combination of ACE and AGT genotypes evidenced no significant differences regardless of sex or BMI categories. Results were similar when BMI was replaced by waist circumference (WC).. We were not able to find any associations between BMI and WC (overweight/obesity) and ACE and AGT polymorphisms, indicating that the RAS system might not be involved in overweight and obesity, at least based on genetic backgrounds. However, further studies must measure RAS components to elucidate this question.

Topics: Adult; Age Distribution; Angiotensinogen; Blood Pressure; Body Mass Index; Brazil; Cross-Sectional Studies; Female; Gene Frequency; Humans; Male; Middle Aged; Obesity; Overweight; Peptidyl-Dipeptidase A; Polymorphism, Genetic; Renin-Angiotensin System; Sex Distribution; Waist Circumference

We aimed to study the impact of obesity on urinary excretion of angiotensinogen (U-AGT) in prepubertal children, focusing on the duration of obesity and gender. Also, we aimed to evaluate whether plasma angiotensinogen (P-AGT) and hydrogen peroxide (H. Cross-sectional evaluation of 305 children aged 8-9 years (160 normal weight, 86 overweight, and 59 obese). Anthropometric measurements and 24-h ambulatory blood pressure monitoring were performed. Angiotensinogen (AGT) was determined by a commercial enzyme-linked immunosorbent assay (ELISA) kit and H. U-AGT and P-AGT levels were similar across body mass index (BMI) groups and between sexes. However, boys who were overweight/obese since the age of 4 years presented lower levels of U-AGT compared with those of normal weight at the same age. In children who were overweight/obese since the age of 4, urinary H. A higher duration of obesity was associated with decreased U-AGT in boys, thus reflecting decreased intrarenal activity of the renin-angiotensin system. Also, children with a longer duration of obesity showed an inverse association between urinary H

Topics: Adipose Tissue; Angiotensinogen; Blood Pressure Monitoring, Ambulatory; Body Mass Index; Child; Cross-Sectional Studies; Enzyme-Linked Immunosorbent Assay; Female; Humans; Hydrogen Peroxide; Kidney; Male; Obesity; Renal Elimination; Renin-Angiotensin System; Sex Factors; Time Factors

Exposure to glucocorticoids in utero is associated with changes in organ function and structure in the adult. The aims of this study were to characterize the effects of antenatal exposure to glucocorticoids on glucose handling and the role of adipose tissue. Pregnant sheep received betamethasone (Beta, 0.17 mg/kg) or vehicle 24 h apart at 80 days of gestation and allowed to deliver at term. At 9 mo, male and female offspring were fed at either 100% of nutritional allowance (lean) or ad libitum for 3 mo (obese). At 1 yr, they were chronically instrumented under general anesthesia. Glucose tolerance was evaluated using a bolus of glucose (0.25 g/kg). Adipose tissue was harvested after death to determine mRNA expression levels of angiotensinogen (AGT), angiotensin-converting enzyme (ACE) 1, ACE2, and peroxisome proliferator-activated receptor γ (PPAR-γ). Data are expressed as means ± SE and analyzed by ANOVA. Sex, obesity, and Beta exposure had significant effects on glucose tolerance and mRNA expression. Beta impaired glucose tolerance in lean females but not males. Superimposed obesity worsened the impairment in females and unmasked the defect in males. Beta increased ACE1 mRNA in females and males and AGT in females only (

Topics: Adipose Tissue; Age Factors; Angiotensin-Converting Enzyme 2; Angiotensinogen; Animals; Betamethasone; Biomarkers; Blood Glucose; Female; Gene Expression Regulation; Gestational Age; Glucocorticoids; Insulin; Insulin Resistance; Male; Obesity; Peptidyl-Dipeptidase A; PPAR gamma; Pregnancy; Prenatal Exposure Delayed Effects; Renin-Angiotensin System; RNA, Messenger; Sheep, Domestic; Time Factors

Sleeve gastrectomy (SG) has been used as a multipurpose surgical procedure for the treatment of obesity.. The present study aimed to assess the effects of SG on the metabolic and inflammatory profile and renin-angiotensin system (RAS) expression in the white adipose tissue of male rats with obesity induced by a high-fat diet.. Male Wistar rats were treated with a standard diet or high-fat diet and submitted to SG or sham surgery. The glycemic and lipid profiles and gene expression of inflammatory markers and RAS components in adipose tissue were evaluated.. SG led to weight loss, decreased adiposity (p < 0.01) and a reduction in plasma glucose (p < 0.05), C-peptide (p < 0.05), insulin (p < 0.001) and total cholesterol (p < 0.05) levels. In addition, SG led to a decrease in the expression of tumor necrosis factor-alpha (TNF-α) (p < 0.01), interleukin- 6 (IL-6) (p < 0.001), angiotensinogen (AGT) (p < 0.001) and angiotensin converting enzyme (ACE) (p < 0.05) and increased the expression of angiotensin converting enzyme 2 (ACE2) (p < 0.05) in white adipose tissue. No statistically significant differences were observed for AT1 (p = 0.10) and Mas (p = 0.22) receptors.. This study showed that SG leads to weight loss and improves metabolic parameters. Changes in the expression of RAS components and of inflammatory molecules in adipose tissue seem to play a role the before beneficial effects of the SG.

Topics: Adipose Tissue; Angiotensinogen; Animals; Diet, High-Fat; Gastrectomy; Humans; Interleukins; Male; Metabolome; Obesity; Peptidyl-Dipeptidase A; Rats, Wistar; Renin-Angiotensin System; Tumor Necrosis Factor-alpha; Weight Loss

Intrarenal RAS has been suggested to be involved in the pathogenesis of hypertension. It was recently reported that urinary angiotensinogen excretion levels are associated with intrarenal RAS. However, few markers predicting intrarenal RAS have been investigated in obese young subjects. The present study evaluated the association between blood pressure and intrarenal RAS activity, inflammation and oxidative stress in obese young adults. Urinary angiotensinogen excretion and urinary monocyte chemotactic protein (MCP)-1, and urinary thiobarbituric acid reaction substance (TBARS) as markers of intrarenal RAS activity, inflammation, and oxidative stress, respectively, were determined from morning urine of 111 young male adults. Participants were divided into two groups based on the body mass index (BMI). Natural log-transformed urinary angiotensinogen excretion level was significantly associated with blood pressure, MCP-1 excretion, and TBARS excretion elevation in the obese group (BMI ≥25 kg/m(2)). Multivariable analyses showed that every 1 standard deviation increase in natural-log transformed urinary angiotensinogen and MCP-1 excretion, but not TBARS excretion level was associated with elevated blood pressure in the obese group. These results indicate that urinary angiotensinogen and MCP-1 excretion were associated with blood pressure elevation in this population of obese young adults. It suggested that inappropriate RAS activity and inflammation precedes hypertension in obese young subjects and urinary angiotensinogen could be a screening maker for hypertension in young obese subjects.

Topics: Adolescent; Angiotensinogen; Biomarkers; Blood Pressure; Body Mass Index; Chemokine CCL2; Female; Humans; Hypertension; Inflammation; Male; Multivariate Analysis; Obesity; Overweight; Oxidative Stress; Renin-Angiotensin System; Thiobarbituric Acid Reactive Substances; Young Adult

Pink urine syndrome (PUS) is attributed to the precipitation of uric acid caused by low urinary pH (U-pH). However, the reasons for the lower U-pH are unclear.. To investigate the occurrence of PUS and verified the cause of U-pH reduction.. Participants comprised 4,940 students who had undergone a physical examination. Data on the presence [PUS (+)] or absence [PUS (-)] of PUS, as well as age, gender, body mass index (BMI), blood pressure (BP), heart rate (HR), and U-pH were collected. Of these participants, 300 randomly selected individuals were evaluated for their waist circumference, as well as their levels of urinary C-peptide, angiotensinogen, methylglyoxal, thiobarbituric acid-reactive substances (TBARS), and Na(+) excretion. Independent risk factors of lower U-pH were decided by a multiple-regression analysis.. PUS was observed in 216 students (4.4 %). A greater number of men comprised the PUS (+) group compared with the PUS (-) group, and subjects in this group had high BMI, BP, and HR values, as well as low U-pH. A logistic regression analysis revealed that the BMI and U-pH were independent risk factors for PUS (+). The decrease of U-pH was closely related to the progress of chronic kidney disease (CKD). BMI value was related to PUS (+) in the CKD (-) subjects. On the other hand, low U-pH was related to PUS (+) in the CKD (+) subjects. All factors other than HR showed a significant negative correlation with U-pH. However, multiple-regression analysis revealed that TBARS and angiotensinogen were independent risk factors.. Obesity and lower U-pH were each independently related to PUS, whereas increased intrarenal oxidative stress and exacerbation of the renin-angiotensin system activation were associated with the lowering of U-pH. U-pH low value is related to potential CKD.

Topics: Adolescent; Angiotensinogen; Asian People; Blood Pressure; Body Mass Index; Color; Female; Humans; Hydrogen-Ion Concentration; Male; Obesity; Pyruvaldehyde; Risk Factors; Syndrome; Thiobarbituric Acid Reactive Substances; Uric Acid; Urologic Diseases; Waist Circumference; Young Adult

We recently demonstrated that adipocyte deficiency of angiotensinogen (AGT) ablated high-fat diet-induced elevations in plasma angiotensin II (Ang II) concentrations and obesity-hypertension in male mice. Hepatocytes are the predominant source of systemic AGT. Therefore, in this study, we defined the contribution of hepatocyte-derived AGT to obesity-induced elevations in plasma AGT concentrations and hypertension. Male Agt(fl/fl) mice expressing albumin-driven Cre recombinase were bred to female Agt(fl/fl) mice to generate Agt(fl/fl) or hepatocyte AGT-deficient male mice (Agt(Alb)). Mice were fed a low-fat or high-fat diet for 16 weeks. Hepatocyte AGT deficiency had no significant effect on body weight. Plasma AGT concentrations were increased in obese Agt(fl/fl) mice. Hepatocyte AGT deficiency markedly reduced plasma AGT and Ang II concentrations in lean and obese mice. Moreover, hepatocyte AGT deficiency reduced the content and release of AGT from adipose explants. Systolic blood pressure was markedly decreased in lean (by 18 mm Hg) and obese Agt(Alb) mice (by 54 mm Hg) compared with Agt(fl/fl) controls. To define mechanisms, we quantified effects of Ang II on mRNA abundance of megalin, an AGT uptake transporter, in 3T3-L1 adipocytes. Ang II stimulated adipocyte megalin mRNA abundance and decreased media AGT concentrations. These results demonstrate that hepatocytes are the predominant source of systemic AGT in both lean and obese mice. Moreover, reductions in plasma angiotensin concentrations in obese hepatocyte AGT-deficient mice may have limited megalin-dependent uptake of AGT into adipocytes for the production of Ang II in the development of obesity-hypertension.

Topics: Angiotensinogen; Animals; Blood Pressure; Body Weight; Cells, Cultured; Disease Models, Animal; Female; Gene Expression Regulation; Hepatocytes; Hypertension; Male; Mice; Mice, Inbred C57BL; Mice, Transgenic; Obesity; RNA, Messenger; Thinness

This study investigated the correlation between elevated serum uric acid (SUA) and angiotensinogen in obesity patients with hypertension. A total of 162 obese and 162 nonobese men with hypertension were recruited in this study. Plasma angiotensinogen levels were measured by enzyme-linked immunosorbent assay. Fasting insulin (FINS) was evaluated by radioimmunoassay. Compared with nonobese patients, obese patients exhibited higher levels of angiotensinogen, FINS, and homeostasis model assessment index-insulin resistance (HOMA-IR) (P<.001 for all). Moreover, these indexes significantly increased in obese patients in the highest tertile of SUA when compared with those in the lowest tertile of SUA (P<.001, P=.002, P=.007, respectively). In the obese group, SUA levels were significantly related to angiotensinogen, FINS, and HOMA-IR, respectively. Furthermore, it was demonstrated that obesity × uric acid was an independent contributor to angiotensinogen (β=0.257, P<.001). In conclusion, elevated SUA is strongly related to angiotensinogen in an obesity-dependent manner in hypertension.

Topics: Adipose Tissue; Adult; Angiotensinogen; Body Mass Index; Case-Control Studies; China; Homeostasis; Humans; Hypertension; Insulin; Insulin Resistance; Male; Middle Aged; Obesity; Uric Acid; Waist Circumference

Topics: Angiotensinogen; Humans; Hypertension; Male; Obesity; Uric Acid

Multiple reaction monitoring (MRM)-based mass spectrometric quantification of peptides and their corresponding proteins has been successfully applied for biomarker validation in serum. The option of multiplexing offers the chance to analyze various proteins in parallel, which is especially important in obesity research. Here, biomarkers that reflect multiple comorbidities and allow monitoring of therapy outcomes are required. Besides the suitability of established MRM assays for serum protein quantification, it is also feasible for analysis of tissues secreting the markers of interest. Surprisingly, studies comparing MRM data sets with established methods are rare, and therefore the biological and clinical value of most analytes remains questionable. A MRM method using nano-UPLC-MS/MS for the quantification of obesity related surrogate markers for several comorbidities in serum, plasma, visceral and subcutaneous adipose tissue was established. Proteotypic peptides for complement C3, adiponectin, angiotensinogen, and plasma retinol binding protein (RBP4) were quantified using isotopic dilution analysis and compared to the standard ELISA method. MRM method variabilities were mainly below 10%. The comparison with other MS-based approaches showed a good correlation. However, large differences in absolute quantification for complement C3 and adiponectin were obtained compared to ELISA, while less marked differences were observed for angiotensinogen and RBP4. The verification of MRM in obesity was performed to discriminate first lean and obese phenotype and second to monitor excessive weight loss after gastric bypass surgery in a seven-month follow-up. The presented MRM assay was able to discriminate obese phenotype from lean and monitor weight loss related changes of surrogate markers. However, inclusion of additional biomarkers was necessary to interpret the MRM data on obesity phenotype properly. In summary, the development of disease-related MRMs should include a step of matching the MRM data with clinically approved standard methods and defining reference values in well-sized representative age, gender, and disease-matched cohorts.

Topics: Adiponectin; Adipose Tissue; Adult; Aged; Angiotensinogen; Biomarkers; Blood Proteins; Chromatography, High Pressure Liquid; Comorbidity; Complement C3; Enzyme-Linked Immunosorbent Assay; Female; Humans; Male; Middle Aged; Obesity; Peptides; Proteomics; Reproducibility of Results; Retinol-Binding Proteins, Plasma; Tandem Mass Spectrometry; Weight Loss

Angiotensinogen (AGT) constitutes a central component of the renin-angiotensin system that controls the systemic blood pressure and several other cardiovascular functions and may play an important role in atherosclerosis pathways. In this study, we employed TaqMan genotyping assays to evaluate the role of 8 AGT variants in primary hypertension (HTN), type 2 diabetes mellitus (T2DM), and obesity as a possible trigger of coronary artery disease (CAD) in a population of 4615 angiographed native Saudi individuals.. Linkage analysis was done by using the Affymetrix Gene Chip array, sequencing by using the MegaBACE DNA analysis system and genotyping accomplished by TaqMan chemistry using the Applied Biosystem real-time Prism 7900HT Sequence Detection System.. Six variants, rs2067853 GG [Odds ratio(95% Confidence Interval) = 1.44(1.17-1.78); p = 0.001], rs7079 [1.49(1.20-1.85); p < 0.0001], rs699 G [1.19(1.08-1.13); p < 0.0001], rs3789679 A [1.51(1.14-1.99); p = 0.004], rs2148582 GG [1.31(1.11-1.55); p = 0.002] and rs5051 TC + CC [1.32(1.13-1.60); p = 0.001] conferred risk for HTN (3521 cases versus 1094 controls). The rs2067853 (p = 0.042), rs699G (p = 0.007) and rs5051 (p = 0.051) also conferred risk for myocardial infarction (MI; 2982 vs 1633), while rs3789679 A (p < 0.0001) and GA + AA (p < 0.0001) as well as rs4762G (p = 0.019) were associated with obesity (1576 vs 2458). However, while these variants appeared to be also associated with CAD (2323 vs 2292), only the rs7079G (p = 0.035) retained its significant relationship. Interestingly, among the haplotypes constructed from these SNPs, the baseline 8-mer haplotype, GGTGGGGT (χ² = 7.02; p = 0.0081) and another GGCGGAGT (χ² = 5.10; p = 0.024), together with several of their derivatives were associated with HTN. T2DM was associated with two 8-mer haplotypes, GGTAGGAC (χ2 = 5.66; p = 0.017) and ATTGAGAC (χ² = 5.93; p = 0.015), obesity with GGCGGAGT (χ² = 9.49; p = 0.0021) and MI was linked to ATTGGGAC (χ² = 6.68; p = 0.010) and GGTGGGAT (χ² = 4.25; p = 0.039). Furthermore, several causative haplotypes were also shared among the risk traits as well as with CAD.. These results point to AGT as independently conferring risk for various cardiovascular traits, and possibly interacting with these traits in events leading to atherosclerosis.

Topics: Angiotensinogen; Arabs; Case-Control Studies; Chi-Square Distribution; Coronary Angiography; Coronary Artery Disease; Diabetes Mellitus, Type 2; DNA Mutational Analysis; Female; Gene Frequency; Genetic Linkage; Genetic Predisposition to Disease; Haplotypes; Humans; Hypertension; Logistic Models; Male; Middle Aged; Obesity; Odds Ratio; Oligonucleotide Array Sequence Analysis; Phenotype; Polymorphism, Single Nucleotide; Real-Time Polymerase Chain Reaction; Risk Assessment; Risk Factors; Saudi Arabia

The angiotensinogen gene is genetically linked with hypertension, but the mechanistic basis for association of sequence variants in the promoter and coding region of the gene remains unclear. An E-box at position -20 has been hypothesized to control the level of angiotensinogen expression, but its mechanistic importance for angiotensinogen expression in human tissues is uncertain. We developed an allele-specific polymerase chain reaction-based assay to distinguish between angiotensinogen mRNA derived from variants at the -20 position (rs5050) in the angiotensinogen promoter in adipose tissues obtained during surgery. The assay takes advantage of linkage disequilibrium between the rs5050 (located in the promoter) and rs4762 (located in the coding region) single nucleotide polymorphisms. This strategy allowed us to assess the level of allele-specific expression in A-20C heterozygous subjects comparing the relative proportion of each allele with the total, thus eliminating the problem of variability in the level of total angiotensinogen mRNA among subjects. We show that angiotensinogen mRNA derived from the -20C allele is expressed significantly higher than that derived from the -20A allele in subcutaneous adipose tissue, and increased expression correlates with enriched chromatin binding of upstream stimulatory factor-2 to the -20C E-box compared with -20A. This may be depot selective because we were unable to detect these differences in omental adipose. This provides the first data directly comparing expression of angiotensinogen mRNA and differential transcription factor binding derived from 2 variant alleles in human tissue where the ratio of expression of one allele to another can be accurately determined.

Topics: Adult; Alleles; Angiotensinogen; Female; Gene Expression Regulation; Genetic Predisposition to Disease; Humans; Linkage Disequilibrium; Male; Obesity; Promoter Regions, Genetic; RNA, Messenger; Subcutaneous Fat

Essential hypertension (HTA) is the clinical expression of a disordered interaction between the genetic, physiological, and biochemical systems that under usual conditions maintain cardiovascular homeostasis. We studied the effects of the angiotensinogen M235T, angiotensin converting enzyme insertion/deletion (ACE I/D), and angiotensin II receptor 1 (AT1R) A1166C gene polymorphisms on the risk of HTA and to evaluate the relationship between these polymorphisms and obesity. We performed AGT, ACE and AGTR genotyping in 142 hypertensive patients and 191 control subjects using PCR-RFLP methods and PCR, respectively. The three polymorphisms were significantly associated with HTA. Individuals carrying the mutated TT of AGT, DD of ACE and CC of AT1R genotypes had an 1.67 (P = 0.032), 3.09 (P < 0.001) and 3.45 (P < 0.001)-fold increased risk of HTA. After adjustment for sex, smoking, diabetes, dyslipidemia, BMI, triglycerides and DD, TT and CC genotypes, BMI was independent risk factor of HTA (OR = 3.14; P < 0.001). An association of BMI with ACE gene polymorphism (P = 0.035), whereas no association with AGT and AT1R gene polymorphisms was obtained. The proportion of hypertensives is as high as 21.8 and 13.4% in the overweight and the obese DD group. The present study implies that the genotyping for the variants of RAS gene could in the future become an important part of the clinical process of risk identification for HTA.

Topics: Aged; Angiotensinogen; Body Mass Index; Case-Control Studies; Confidence Intervals; Demography; Female; Genetic Predisposition to Disease; Genetics, Population; Humans; Hypertension; Logistic Models; Male; Middle Aged; Obesity; Odds Ratio; Peptidyl-Dipeptidase A; Polymorphism, Genetic; Receptor, Angiotensin, Type 1; Renin-Angiotensin System; Risk Factors; Tunisia

Obesity-related hypertension may be caused by activation of the local adipose tissue renin-angiotensin system, resulting in exaggerated production of the vasoconstrictor angiotensin II. Additionally, secretion of adiponectin from adipose tissue, which prevents endothelial dysfunction, is altered in obesity. Consumption of conjugated linoleic acid (CLA) has been shown to modulate cytokine release from adipocytes and positively influence blood pressure in younger rats, but its physiological actions in older models with established hypertension and isomer-specific effects on adipocyte size remain to be determined. Therefore, we investigated the effects of CLA isomers on adipocyte size in relation to blood pressure and adipokine production by hypertrophic adipocytes in older fa/fa Zucker rats with established hypertension. fa/fa Zucker rats were fed with cis(c)9, trans(t)11-CLA or t10, c12-CLA isomers for 8 weeks and compared with lean and obese rats fed with the control diet. Blood pressure and adipocyte size were subsequently measured. Collagenase-isolated adipocytes were size-separated and angiotensinogen and adiponectin protein levels quantified by Western blotting. The t10, c12-CLA group had reduced blood pressure, fewer large adipocytes and increased serum adiponectin. Angiotensinogen was present at higher levels in the large adipocytes, whereas the converse was observed for adiponectin. The beneficial effects of the t10, c12-CLA isomer on blood pressure and adipocyte size in vivo may be due to its ability to reduce the number of large adipocytes, which alters the levels of vasoactive molecules secreted from adipose tissue.

Topics: Adipocytes; Adiponectin; Adipose Tissue; Angiotensinogen; Animals; Anti-Obesity Agents; Antihypertensive Agents; Blood Pressure; Blotting, Western; Collagenases; Dietary Fats; Hypertension; Hypertrophy; Isomerism; Linoleic Acids, Conjugated; Male; Obesity; Rats; Rats, Zucker

Although obesity is associated with overactivation of the white adipose tissue (WAT) renin-angiotensin system (RAS), a causal link between the latter and systemic insulin resistance is not established. We tested the hypothesis that overexpression of angiotensinogen (Agt) from WAT causes systemic insulin resistance via modulation of adipose inflammation. Glucose tolerance, systemic insulin sensitivity, and WAT inflammatory markers were analyzed in mice overexpressing Agt in the WAT (aP2-Agt mice). Proteomic studies and in vitro studies using 3T3-L1 adipocytes were performed to build a mechanistic framework. Male aP2-Agt mice exhibited glucose intolerance, insulin resistance, and lower insulin-stimulated glucose uptake by the skeletal muscle. The difference in glucose tolerance between genotypes was normalized by high-fat (HF) feeding, and was significantly improved by treatment with angiotensin-converting enzyme (ACE) inhibitor captopril. aP2-Agt mice also had higher monocyte chemotactic protein-1 (MCP-1) and lower interleukin-10 (IL-10) in the WAT, indicating adipose inflammation. Proteomic studies in WAT showed that they also had higher monoglyceride lipase (MGL) and glycerol-3-phosphate dehydrogenase levels. Treatment with angiotensin II (Ang II) increased MCP-1 and resistin secretion from adipocytes, which was prevented by cotreating with inhibitors of the nuclear factor-κB (NF-κB) pathway or nicotinamide adenine dinucleotide phosphate (NADPH) oxidase. In conclusion, we show for the first time that adipose RAS overactivation causes glucose intolerance and systemic insulin resistance. The mechanisms appear to be via reduced skeletal muscle glucose uptake, at least in part due to Ang II-induced, NADPH oxidase and NFκB-dependent increases in WAT inflammation.

Topics: 3T3-L1 Cells; Adipocytes; Adipose Tissue; Angiotensin-Converting Enzyme Inhibitors; Angiotensinogen; Animals; Captopril; Glucose Intolerance; Glycerolphosphate Dehydrogenase; Inflammation; Insulin Resistance; Interleukin-10; Male; Mice; Muscle, Skeletal; NF-kappa B; Obesity; Up-Regulation

High sodium intake is known to regulate the renal renin-angiotensin system (RAS) and is a risk factor for the pathogenesis of obesity-related hypertension. The complex nature of the RAS reveals that its various components may have opposing effects on natriuresis and blood pressure regulation. We hypothesized that high sodium intake differentially regulates and shifts a balance between opposing components of the renal RAS, namely, angiotensin-converting enzyme (ACE)-ANG II-type 1 ANG II receptor (AT(1)R) vs. AT(2)-ACE2-angiotensinogen (Ang) (1-7)-Mas receptor (MasR), in obesity. In the present study, we evaluated protein and/or mRNA expression of angiotensinogen, renin, AT(1A/B)R, ACE, AT(2)R, ACE2, and MasR in the kidney cortex following 2 wk of a 8% high-sodium (HS) diet in lean and obese Zucker rats. The expression data showed that the relative expression pattern of ACE and AT(1B)R increased, renin decreased, and ACE2, AT(2)R, and MasR remained unaltered in HS-fed lean rats. On the other hand, HS intake in obese rats caused an increase in the cortical expression of ACE, a decrease in ACE2, AT(2)R, and MasR, and no changes in renin and AT(1)R. The cortical levels of ANG II increased by threefold in obese rats on HS compared with obese rats on normal salt (NS), which was not different than in lean rats. The HS intake elevated mean arterial pressure in obese rats (27 mmHg) more than in lean rats (16 mmHg). This study suggests that HS intake causes a pronounced increase in ANG II levels and a reduction in the expression of the ACE2-AT(2)R-MasR axis in the kidney cortex of obese rats. We conclude that such changes may lead to the potentially unopposed function of AT(1)R, with its various cellular and physiological roles, including the contribution to the pathogenesis of obesity-related hypertension.

Topics: Actins; Angiotensin I; Angiotensin II; Angiotensin-Converting Enzyme 2; Angiotensinogen; Animals; Blood Pressure; Chromatography, High Pressure Liquid; Hypertension, Renal; Kidney; Kidney Cortex; Male; Mass Spectrometry; Obesity; Peptide Fragments; Peptidyl-Dipeptidase A; Proto-Oncogene Mas; Proto-Oncogene Proteins; Rats; Rats, Zucker; Real-Time Polymerase Chain Reaction; Receptor, Angiotensin, Type 2; Receptors, G-Protein-Coupled; Renin; Sodium, Dietary; Spectrometry, Mass, Electrospray Ionization

Previous studies demonstrated that diet-induced obesity increased plasma angiotensin II concentrations and elevated systolic blood pressures in male mice. Adipocytes express angiotensinogen and secrete angiotensin peptides. We hypothesize that adipocyte-derived angiotensin II mediates obesity-induced increases in systolic blood pressure in male high fat-fed C57BL/6 mice. Systolic blood pressure was measured by radiotelemetry during week 16 of low-fat or high-fat feeding in Agt(fl/fl) and adipocyte angiotensinogen-deficient mice (Agt(aP2)). Adipocyte angiotensinogen deficiency had no effect on diet-induced obesity. Basal 24-hour systolic blood pressure was not different in low fat-fed Agt(fl/fl) compared with Agt(aP2) mice (124 ± 3 versus 128 ± 3 mm Hg, respectively). In Agt(fl/fl) mice, high-fat feeding significantly increased systolic blood pressure (24 hours; 134 ± 2 mm Hg; P<0.05). In contrast, high fat-fed Agt(aP2) mice did not exhibit an increase in systolic blood pressure (126 ± 2 mm Hg). Plasma angiotensin II concentrations were increased by high-fat feeding in Agt(fl/fl) mice (low fat, 32 ± 14; high fat, 219 ± 58 pg/mL; P<0.05). In contrast, high fat-fed Agt(aP2) mice did not exhibit elevated plasma angiotensin II concentrations (high fat, 18 ± 7 pg/mL). Similarly, adipose tissue concentrations of angiotensin II were significantly decreased in low fat- and high fat-fed Agt(aP2) mice compared with controls. In conclusion, adipocyte angiotensinogen deficiency prevented high fat-induced elevations in plasma angiotensin II concentrations and systolic blood pressure. These results suggest that adipose tissue serves as a major source of angiotensin II in the development of obesity hypertension.

Topics: Adipocytes; Adipose Tissue; Angiotensinogen; Animals; Blood Pressure; Diet; Heart Rate; Hypertension; Male; Mice; Mice, Inbred C57BL; Mice, Transgenic; Obesity

Topics: Adipocytes; Angiotensinogen; Animals; Hypertension; Male; Obesity

The plasmatic angiotensinogen (AGT) level has been associated with essential hypertension. Linkage analysis has found a relationship between the AGT gene locus and hypertension in the Mexican-American population, but studies have failed to identify genetic variants associated with hypertension or plasma AGT levels. This study analyzes the relationship between polymorphisms in the AGT gene and plasmatic AGT levels in Mexican population.. Nine polymorphisms in AGT gene were genotyped, and plasma AGT level was determined by enzyme-linked immunosorbent assay.. Differences in AGT plasma levels were associated with 2 polymorphisms: T-20G, TT = 25.3 ± 8.3 versus TG + GG = 21.6 ± 8.8 μg/mL; P = 0.008 and C3389T (T174M), CC = 25.8 ± 9.9 versus TC + TT = 20.5 ± 5.4 μg/mL; P = 0.0002. Haplotype 2 was associated with low plasma AGT (-5.1 μg/mL [95% confidence interval: -8.6 to -1.6], P = 0.004) and Haplotype 8 was associated with high plasma AGT (6.5 μg/mL [95% confidence interval: 2.5 to 10.6], P = 0.001). This association remained after adjustment for covariates. A Likelihood Ratio Test for haplotype-phenotype association adjusted for covariates resulted in χ = 38.9, P = 0.0005. The total effect of the haplotypes on plasma AGT level variance was 19.5%. No association was identified between haplotypes and quantitative traits of blood pressure.. Two polymorphisms (T-20G and C3389T) and 2 haplotypes (H2 and H8) showed an association with plasma AGT levels in Mexican population.

Topics: Aged; Angiotensinogen; Blood Pressure; Enzyme-Linked Immunosorbent Assay; Female; Genes; Genetic Association Studies; Genotype; Haplotypes; Humans; Hypertension; Male; Mexico; Obesity; Polymorphism, Single Nucleotide

Human angiotensinogen (AGT) gene promoter polymorphisms (G-217A; A-20C; G-6A) influence AGT transcription in vitro and have been implicated in the genetics of essential hypertension. We analysed the association among AGT promoter variants and AGT mRNA levels in human kidney and visceral adipose tissue (VAT) in vivo. Samples of kidney and VAT were obtained from 35 consecutive patients undergoing renal surgery. The AGT gene promoter of each patient was sequenced to identify variants. AGT gene expression was studied by real-time PCR TaqMan assay. Clinical data obtained before surgery were also considered in the statistical analysis. Two new polymorphisms at -175 and at -163 were identified. Although AGT expression was significantly higher in VAT than in the kidney, when both variants were present together AGT expression in VAT was about fivefold lower (P=0.033) than in the wild haplotype. This lower AGT expression in VAT suggests that the proximity and linkage of -175A and -163A variants might destabilize the binding of specific transcription factors to an acute-phase responsive element 3. Among the known AGT promoter variants, only -20C SNP has an important effect on tissue-specific differential AGT expression in the human tissues studied, inducing a 3.8-fold increase in AGT mRNA localized only in the kidney medulla (P=0.038). The other known polymorphisms (G-6A; G-217A) were not associated with different levels of AGT expression. Our results support the hypothesis that some human AGT promoter variants influence transcriptional activity in a tissue-specific way in humans.

Topics: Aged; Angiotensinogen; Base Sequence; Female; Gene Expression; Genotype; Humans; Hypertension, Renal; Intra-Abdominal Fat; Kidney Cortex; Kidney Medulla; Male; Middle Aged; Molecular Sequence Data; Obesity; Organ Specificity; Polymorphism, Single Nucleotide; Promoter Regions, Genetic; RNA, Messenger

The mechanisms underlying the association of the increased albumin excretion rate (AER) with adiposity have yet to be clarified. We therefore investigated (1) the predictors of AER after 3 months of lifestyle intervention in a large cohort of nondiabetic obese women and (2) the relationships between AER and the adipose tissue gene expression of adipokines linked to inflammation and insulin resistance.. A total of 269 obese nondiabetic women (age 49.9+/-13.1 years, body mass index (BMI) 36.8+/-4.6 kg m(-2)) participated in this program. Measurements used were anthropometrics parameters, blood pressure, oral glucose tolerance test, lipids, creatinine, AER, homeostasis model assessment of insulin resistance (HOMA-IR) and glomerular filtration rate at baseline and after 3 months of lifestyle intervention. At baseline, in a subgroup of 34 women, subcutaneous adipose tissue biopsy was carried out for the analysis of mRNA expression levels of adiponectin, suppressor of cytokine signaling 3 (SOCS-3), tumor necrosis factor alpha (TNF-alpha), pentraxine 3 (PTX-3), angiotensinogen and angiotensin-converting enzyme, and a blood sample was also taken from this group for the measurement of circulating adiponectin, interleukin-6, TNF-alpha and PTX-3. Microalbuminuria was defined as albumin/creatinine ratio >or=3.5 mg mmol(-1). Real-time PCR was used to quantify mRNA.. Six percent of obese women had microalbuminuria. When dividing the whole cohort into three groups according to AER changes (decrease, stability and increase), we noted that 2 h glucose, insulin and HOMA-IR significantly decreased (P<0.05 for all) only in women who had a decrease in AER, whereas BMI and waist circumference significantly decreased in all the three groups (P<0.05). At baseline, higher AER was associated to significantly higher adipose tissue mRNA expression levels of SOCS-3 and PTX-3 (P<0.05) and to higher TNF-alpha and angiotensinogen expression.. In obese women, weight loss alone is not sufficient to induce the AER decrease that occurs only with a concomitant improvement in glucose homeostasis. The adipose tissue gene expression profile seems to favor the early renal impairment often seen in obese subjects.

Topics: Adiponectin; Albumins; Albuminuria; Angiotensinogen; Body Mass Index; C-Reactive Protein; Female; Gene Expression; Humans; Insulin Resistance; Middle Aged; Obesity; Peptidyl-Dipeptidase A; Predictive Value of Tests; Risk Reduction Behavior; Serum Amyloid P-Component; Subcutaneous Fat; Suppressor of Cytokine Signaling 3 Protein; Suppressor of Cytokine Signaling Proteins; Tumor Necrosis Factor-alpha; Weight Loss

Adipose tissue expresses all components of the renin-angiotensin system including angiotensinogen (AGT). Recent studies have highlighted a potential role of AGT in adipose tissue function and homeostasis. However, some controversies surround the regulatory mechanisms of AGT in obese adipose tissue. In this context, we here demonstrated that the AGT messenger RNA (mRNA) level in human subcutaneous adipose tissue was significantly reduced in obese subjects as compared with nonobese subjects. Adipose tissue AGT mRNA level in obese mice was also lower as compared with their lean littermates; however, the hepatic AGT mRNA level remained unchanged. When 3T3-L1 adipocytes were cultured for a long period, the adipocytes became hypertrophic with a marked increase in the production of reactive oxygen species. Expression and secretion of AGT continued to decrease during the course of adipocyte hypertrophy. Treatment of the 3T3-L1 and primary adipocytes with reactive oxygen species (hydrogen peroxide) or tumor necrosis factor alpha caused a significant decrease in the expression and secretion of AGT. On the other hand, treatment with the antioxidant N-acetyl cysteine suppressed the decrease in the expression and secretion of AGT in the hypertrophied 3T3-L1 adipocytes. Finally, treatment of obese db/db mice with N-acetyl cysteine augmented the expression of AGT in the adipose tissue, but not in the liver. The present study demonstrates for the first time that oxidative stress dysregulates AGT in obese adipose tissue, providing a novel insight into the adipose tissue-specific interaction between the regulation of AGT and oxidative stress in the pathophysiology of obesity.

Topics: Adipocytes; Adult; Angiotensinogen; Animals; Cell Size; Cells, Cultured; Female; Humans; Male; Mice; Mice, Obese; Middle Aged; Obesity; Oxidative Stress; Reactive Oxygen Species; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger; Subcutaneous Fat; Tumor Necrosis Factor-alpha

The adipose tissue renin-angiotensin system (RAS) has been implicated in the pathophysiology of obesity and dysfunction of adipose tissue. However, neither regulation of angiotensinogen (AGT) expression in adipose tissue nor secretion of adipose tissue-derived AGT has been fully elucidated in humans.. Human subcutaneous abdominal adipose tissue (SAT) biopsies were performed for 46 subjects with a wide range of body mass index (BMI). Considering the mRNA level of AGT and indices of body fat mass, the amount of adipose tissue-derived AGT secretion (A-AGT-S) was estimated. Using a mouse model of obesity and weight reduction, plasma AGT levels were measured with a newly developed enzyme-linked immunosorbent assay (ELISA), and the contribution of A-AGT-S to plasma AGT levels was assessed.. A-AGT-S was substantially increased in obese humans and the value was correlated with the plasma AGT level in mice. A-AGT-S and plasma AGT were higher in obese mice, whereas lower in mice with weight reduction. However, the AGT mRNA levels in the liver, kidney, and aorta were not altered in the mouse models. In both humans and mice, the AGT mRNA levels in mature adipocytes (MAs) were comparable to those in stromal-vascular cells. Coulter Multisizer analyses revealed that AGT mRNA levels in the MAs were inversely correlated with the average size of mature adipocytes.. This study demonstrates that adipose tissue-derived AGT is substantially augmented in obese humans, which may contribute considerably to elevated levels of circulating AGT. Adipose tissue-specific regulation of AGT provides a novel insight into the clinical implications of adipose tissue RAS in human obesity.

Topics: Adipocytes; Adipose Tissue; Adult; Angiotensinogen; Animals; Aorta; Cell Enlargement; Female; Gene Expression Regulation; Humans; Kidney; Liver; Male; Mice; Mice, Inbred C57BL; Mice, Obese; Middle Aged; Nutritional Status; Obesity; Renin; RNA, Messenger

The Spontaneously Diabetic Torii-Lepr(fa) (SDT-fa/fa) rat, a new model of obese type 2 diabetes, shows obesity, hyperglycemia, and hyperlipidemia from 6 weeks of age. Diabetic complications such as nephropathy and cataract are observed with aging; however, blood pressure change with age has not previously been examined. In this study, blood pressure was periodically measured and the change was investigated. Blood pressure in male SDT-fa/fa rats was elevated at 8, 16, and 24 weeks of age, whereas the heart rate was not changed. In addition to hyperglycemia, hyperlipidemia, and proteinuria, hyperleptinemia and increased urine angiotensinogen were observed in SDT-fa/fa rats. Blood pressure and heart rate in the male original SDT (SDT-+/+) rat did not significantly change. In conclusion, the SDT-fa/fa rat is a promising model, showing significant hypertension with diabetes mellitus.

Topics: Angiotensinogen; Animals; Blood Pressure; Diabetes Mellitus, Type 2; Disease Models, Animal; Heart Rate; Hyperglycemia; Hyperlipidemias; Hypertension; Leptin; Male; Obesity; Proteinuria; Rats; Rats, Sprague-Dawley

The genes associated with hypertension could be genetic risk factors for metabolic syndrome (MetS).. To determine the frequency of M235T and T174M-AGT, I/D-ACE and A1166C-AGTR1 in hypertensive patients with MetS and to evaluate the relationship between these polymorphisms and central obesity and dyslipidemia, respectively.. We performed AGT, AGTR1 and ACE genotyping in 56 hypertensive women (24 with MetS) and 71 normotensive women using PCR-RFLP methods and PCR, respectively.. Hypertensive patients carrying the mutated TT235, MM174 and DD genotypes had an 1.53 (p=0.56), 1.78 (p=0.52) and 1.28 (p=0.78)-fold increased risk to develop MetS. Hypertensive carriers of both mutated TT235 and MM174 or TT235 and D/D or TT235 and CC+AC genotypes had an 8.15 (p=0.04), 4.83 (p=0.04) and 10.53 (p=0.05)-fold increased risk to develop MetS. Hypertensive patients with MetS and TT, D/D or CC genotypes had higher body mass index compared to hypertensive patients without MetS (p

Topics: Adult; Angiotensinogen; Dyslipidemias; Female; Genetic Predisposition to Disease; Genotype; Humans; Hypertension, Renal; Metabolic Syndrome; Middle Aged; Obesity; Peptidyl-Dipeptidase A; Polymerase Chain Reaction; Polymorphism, Restriction Fragment Length; Receptor, Angiotensin, Type 1; Renin-Angiotensin System; Risk Factors

Genetic variability in obesity-related genes and the resulting phenotypes are being recognized as major risk factors for colorectal cancer and/or severity of the disease.. A total of 102 patients (aged 68 +/- 10.2 years, 79 men and 23 women) and 101 age-matched (68.1 +/- 5.4 years old) individuals without colorectal cancer, 59 men and 42 women, were recruited. All the individuals were genotyped for the following subset of polymorphisms in obesity-related genes: angiotensinogen gene (M235T and -6A/G), in IL-6 gene (-174 G/C and -596 A/G), in leptin gene (-2548 A/G), and polymorphism Gln223Arg within the leptin receptor (LEPR) gene.. A significant increase in frequency of double heterozygote genotype (MTAG) of both angiotensinogen polymorphisms in males with colorectal cancer was observed when compared to control men [odds ratio (OR) = 3.77, P (corr) = 0.001]. A marginally significant difference in genotype distribution of -174 G/C IL-6 polymorphism between the patients in stage I-II compared to patients in III-IV was found (P (g) = 0.05, P (a) = 0.173). The GG genotype of -174 G/C IL-6 polymorphism in the patients in stage III-IV carries an increased risk compared to those in stage I-II (OR = 2.83, P (corr) = 0.06). Similarly, a difference in genotype distribution of Gln223Arg in LEPR gene between the patients staged I-II compared to III-IV was observed (P (g) = 0.05). The AA genotype was shown to be risky for the patients staged III-IV (OR = 3.35, P (corr) = 0.06).. The investigated single nucleotide polymorphisms within the genes encoding for obesity-related genes were observed to be associated both with clinical manifestation of colorectal cancer and with severity of the disease. Thus, we suggest that defined genetic variability in the genes might become DNA markers for colorectal cancer in the future.

Topics: Aged; Angiotensinogen; Case-Control Studies; Colorectal Neoplasms; Czech Republic; Female; Genetic Predisposition to Disease; Genotype; Humans; Interleukin-6; Leptin; Male; Obesity; Phenotype; Polymorphism, Single Nucleotide; Receptors, Leptin; White People

Increased angiotensinogen (AGT) production by white adipose tissue has been related to not only obesity but also hypertension. Several studies have highlighted the importance of the angiotensin II type 2 receptor (AT2) in the regulation of blood pressure and fat mass, but the relevance of this transporter in a physiopathological model of increased AGT production, as it occurs in obesity, has not yet been investigated. We used transgenic mice that display either a deletion of AT2 (AT2 KO), an overexpression of AGT (OVEX), or both compound mutants (KOVEX). Results demonstrated that adipocyte hypertrophy and increased lipogenic gene expression induced by adipose AGT overproduction was rescued by deletion of AT2. In line with AGT overexpression, KOVEX and OVEX mice have similar increased plasma AGT levels. However, KOVEX mice display a higher blood pressure than OVEX mice. In kidney, renin expression was clearly reduced in OVEX mice, and its expression was normalized in KOVEX mice. Taken together, we demonstrated that the loss of AT2 expression was sufficient to rescue obesity induced by adipose tissue AGT overexpression and confirmed the necessary role of AT2 for the onset of obesity in this model. Furthermore, despite a reduction of adipose mass in KOVEX, AT2 deficiency caused increased renin production, further worsening the hypertension caused by AGT overexpression.

Topics: Adipose Tissue; Adiposity; Angiotensinogen; Animals; Body Weight; Cell Count; Cells, Cultured; Female; Genotype; Hypertension; Lipogenesis; Male; Mice; Mice, Inbred C57BL; Mice, Transgenic; Obesity; Receptor, Angiotensin, Type 2

We recently reported that urinary excretion rates of angiotensinogen provide a specific index of the intrarenal renin-angiotensin system status in angiotensin II-dependent hypertensive rats. Angiotensinogen concentrations in mouse plasma are thought to be much lower than those in rat plasma; however, detailed information is deficient due to lack of direct quantitative measurements of rodent angiotensinogen. To elucidate this issue, we have developed a quantitative method for measurement of rodent angiotensinogen using a sandwich-type ELISA. The standard curve for mouse and rat angiotensinogen exhibited a high linearity at 0.16-10 and 0.08-5 ng/ml, respectively, with correlation coefficients >0.99. While plasma angiotensinogen concentrations of male high serum IgA (HIGA) mice (IgA nephritis model animals, 1,308 +/- 47 ng/ml; n = 10) were lower than those of control BALB/c mice (1,620 +/- 384; n = 12), urinary angiotensinogen concentrations of HIGA mice (14.6 +/- 1.5 ng/ml; n = 34) were higher than those of BALB/c mice (4.6 +/- 0.1; n = 2). In a similar manner, while plasma angiotensinogen concentrations of Zucker diabetic fatty (ZDF) obese rats (type 2 diabetic model animals, 1,789 +/- 50 ng/ml; n = 5) were lower than those of control ZDF lean rats (2,296 +/- 47; n = 5), urinary angiotensinogen concentrations of ZDF obese rats (88.2 +/- 11.4 ng/ml; n = 15) were higher than those of ZDF lean rats (31.3 +/- 1.9; n = 15). These data indicate that plasma and urinary angiotensinogen concentrations are less in mice than rats. However, these data suggest that urinary angiotensinogen levels are different from plasma angiotensinogen levels in rodents. The development of rodent angiotensinogen ELISA allows quantitative comparisons in mouse and rat angiotensinogen levels in models of hypertension and cardiovascular and kidney diseases.

Topics: Angiotensinogen; Animals; Antibody Specificity; Blotting, Western; Diabetes Mellitus, Type 2; Enzyme-Linked Immunosorbent Assay; Genetic Vectors; Glomerulonephritis, IGA; Immunohistochemistry; Mice; Mice, Inbred BALB C; Mice, Inbred C57BL; Obesity; Rats; Rats, Wistar; Rats, Zucker; Recombinant Proteins; Renin; Reproducibility of Results

Substantial evidence suggests that the intrarenal renin-angiotensin system (RAS) plays a role in the pathogenesis of diabetic nephropathy. Although the glomerular RAS is activated in the streptozotocin (STZ)-diabetic rat, the status of the glomerular RAS in the Zucker diabetic fatty (ZDF) rat, which is a commonly used genetic model of diabetes, is not known. Angiotensinogen (AGT), angiotensin II (Ang II), angiotensin converting enzyme (ACE), and angiotensin converting enzyme 2 (ACE2) were measured in glomeruli isolated from 4-week-old STZ-diabetic rats and 32-week-old ZDF rats. Glomerular injury was evaluated by histopathologic methods. Both STZ-diabetic and ZDF rats exhibited marked hyperglycemia and renal hypertrophy, but only ZDF rats demonstrated proteinuria and glomerulosclerosis. Glomerular AGT and Ang II levels were increased significantly in STZ-diabetic compared with nondiabetic control rats, accompanied by a reduction in ACE2 activity. In contrast, glomerular AGT, Ang II, and ACE2 were similar in ZDF rats and lean controls. ACE levels were not affected by diabetes in either diabetic model. In conclusion, the glomerular RAS is activated in the STZ diabetic rat but not in the ZDF rat despite a similar degree of hyperglycemia. The mechanism of nephropathy in the ZDF rat may involve factors other than hyperglycemia and RAS activation, such as hypertension and hyperlipidemia.

Topics: Angiotensin-Converting Enzyme 2; Angiotensinogen; Animals; Body Weight; Diabetes Mellitus, Experimental; Kidney Glomerulus; Male; Obesity; Organ Size; Peptidyl-Dipeptidase A; Rats; Rats, Sprague-Dawley; Rats, Zucker; Renin-Angiotensin System; Streptozocin

1. The present study was performed to test the hypothesis that the reactive oxygen species (ROS)-angiotensinogen (AGT)-renin angiotensin system (RAS) axis is sequentially activated in the development of diabetic nephropathy in Zucker diabetic fatty (ZDF) obese rats. 2. Genetic pairs of male ZDF obese and control ZDF lean rats (n = 12 of each species) were killed every 3 weeks from 12 to 21 weeks of age (n = 6 at each time point). 3. The ZDF obese rats developed diabetes mellitus at 12 weeks. At that time, urinary excretion rates of 8-isoprostane were similar between the groups; however, urinary 8-isoprostane levels were significantly increased at 15 weeks in ZDF obese rats compared with controls (36 +/- 6 vs 15 +/- 2 ng/day, respectively). At 15 weeks, protein levels of cortical angiotensinogen were similar between groups; however, cortical angiotensinogen levels were significantly increased at 18 weeks in ZDF obese rats compared with controls (relative ratio of 2.32 +/- 0.21 vs 1.00 +/- 0.20, respectively). At 12 weeks, angiotensin (Ang) II-like immunoreactivity was similar between groups in both the glomeruli and tubules; however, AngII-like immunoreactivity was increased significantly at 21 weeks in ZDF obese rats compared with controls (relative ratios of 1.98 +/- 0.55 vs 1.00 +/- 0.03, respectively, for glomeruli and 1.58 +/- 0.16 vs 1.00 +/- 0.13, respectively, for tubules). Moreover, at 21 weeks, the desmin-positive area in the glomeruli (0.63 +/- 0.08 vs 0.22 +/- 0.05%) and Masson's trichrome stain-positive area in the interstitium (4.97 +/- 0.05 vs 3.18 +/- 0.41%) were significantly increased in ZDF obese rats compared with controls, even though these differences had not been observed earlier. 4. These data suggest that the sequential activation of the ROS-AGT-RAS axis plays an important role in the development of diabetic nephropathy in ZDF obese rats.

Topics: Angiotensinogen; Animals; Diabetes Mellitus, Type 2; Diabetic Nephropathies; Dinoprost; Male; Obesity; Rats; Rats, Zucker; Reactive Oxygen Species; Renin-Angiotensin System; Time Factors

The renin-angiotensin system has been implicated in obesity-related hypertension and insulin resistance. We examined whether locally produced components of the renin-angiotensin system in adipose tissue and skeletal muscle play an endocrine role in vivo in humans. Furthermore, the effects of beta-adrenergic stimulation on plasma concentrations and tissue release of renin-angiotensin system components were investigated. Systemic renin-angiotensin system components and arteriovenous differences of angiotensin II (Ang II) and angiotensinogen (AGT) across abdominal subcutaneous adipose tissue and skeletal muscle were assessed in combination with measurements of tissue blood flow before and during systemic beta-adrenergic stimulation in 13 lean and 10 obese subjects. Basal plasma Ang II and AGT concentrations were not significantly different between lean and obese subjects. Ang II concentrations were increased in obese compared with lean subjects during beta-adrenergic stimulation (12.6+/-1.5 versus 8.1+/-1.0 pmol/L; P=0.04), whereas AGT concentrations remained unchanged. Plasma renin activity increased to a similar extent in lean and obese subjects during beta-adrenergic stimulation (both P<0.01). No net Ang II release across adipose tissue and skeletal muscle could be detected in both groups of subjects. However, AGT was released from adipose tissue and muscle during beta-adrenergic stimulation in obese subjects (both P<0.05). In conclusion, locally produced Ang II in adipose tissue and skeletal muscle exerts no endocrine role in lean and obese subjects. In contrast, AGT is released from adipose tissue and muscle in obese subjects during beta-adrenergic stimulation, which may contribute to the increased plasma Ang II concentrations during beta-adrenergic stimulation in obese subjects.

Topics: Abdomen; Adipose Tissue; Angiotensin II; Angiotensinogen; Humans; Male; Middle Aged; Muscle, Skeletal; Obesity; Receptors, Adrenergic, beta; Regional Blood Flow; Renin-Angiotensin System

Obesity is associated with hypertension and other cardiovascular diseases especially in the African-American population. Human angiotensinogen (AGT) gene has seven single nucleotide polymorphisms (SNPs) in 1.2 kb region of its promoter. Recent studies have shown that variant -217A is associated with hypertension in African-American and Chinese population. Nucleotide sequence of the hAGT gene has shown that variant -217A almost always occurs with variants -532T, -793A and -1074T (forming haplotype AAT) and variant -217G almost always occurs with variants -532C, -793G and -1074G (forming haplotype GGG). Since hAGT gene is expressed in the adipose tissue and its expression in this tissue may play a role in hypertension, we have analyzed the role of haplotypes AAT and GGG on the expression of this gene in adipocytes. We show here that a reporter construct with haplotype AAT of the hAGT gene has increased promoter activity on transient transfection in pre-adipocytes and differentiated adipocytes as compared to the reporter construct containing GCGG haplotype. Increased expression of the AGT gene containing haplotype AAT in the liver and adipocytes may be a contributing factor for hypertension.

Topics: 3T3-L1 Cells; Adipocytes; Angiotensinogen; Animals; Dexamethasone; Haplotypes; Humans; Hypertension; Mice; Obesity; Polymorphism, Single Nucleotide; Promoter Regions, Genetic; Recombinant Fusion Proteins; Transcription, Genetic; Transfection

To investigate the relationship between angiotensinogen (AGT) Met235Thr polymorphism (M235T) and human obesity, because AGT is regarded as one of the cytokines produced from adipocytes and serum AGT concentrations are reported to be positively correlated with body mass index. One hundred and twenty obese Japanese women (age, 58.8+/-9.4 years; body mass index, 32.2+/-4.9 kg/m(2)) were enrolled. Angiotensinogen genotypes were determined with a fluorescent allele-specific DNA primer assay system. Subjects were divided into M/M, M/T, and T/T groups. Control subjects comprised 146 healthy age-matched women. Clinical characteristics and the effects of diet and exercise therapy for 6 months were compared among the 3 genotypes. The genotype frequencies of AGT M235T polymorphism were in accordance with the Hardy-Weinberg equation (obese: M/M, 6.7%; M/T, 27.5%; T/T, 65.8%; control: M/M, 6.8%; M/T, 21.2%; T/T, 71.9%). The frequency of the T allele did not differ between obese and control subjects (0.80 vs 0.83). As the number of obese women with M/M genotype was only 8, comparisons of the characteristics and outcomes of weight reduction therapy were performed only between subjects with M/T genotype and T/T genotype. In the T/T group, % body fat and waist circumference at baseline were significantly greater than in the M/T group (36.3%+/-4.8% vs 33.8%+/-4.7%, P=.0105; 107.9+/-10.9 vs 102.6+/-7.9 cm, P=.0428, respectively). Before the weight reduction therapy, significantly higher insulin and higher homeostasis model assessment (HOMA-R) were demonstrated in the T/T group than in the M/T group (9.1+/-5.5 microU/mL vs 5.9+/-4.4 microU/mL, P=.0056; 2.3+/-1.4 vs 1.6+/-1.3, P=.0252, respectively). Both systolic and diastolic blood pressure at baseline in the T/T group tended to be higher than those in the M/T group, but the differences were not significant. No genotype-dependent difference in energy expenditure or outcome of weight reduction therapy was observed with respect to AGT M235T polymorphism. After the diet and exercise therapy, the blood pressure in the T/T group tended to be higher than that in the M/T group, but the difference was not significant. We demonstrated that the T/T genotype of the AGT M235T gene polymorphism was positively related to visceral obesity and hyperinsulinemia in obese Japanese women. Blood pressure did not show genotype-specific differences before or after the treatment. Further studies of the association between obesity and this gene pol

Topics: Aged; Amino Acid Substitution; Angiotensinogen; Body Fat Distribution; Case-Control Studies; Diet Therapy; Exercise Therapy; Female; Genotype; Humans; Insulin Resistance; Middle Aged; Obesity; Polymorphism, Genetic; Weight Loss

To investigate whether catch-up growth after maternal malnutrition would favor the development of obesity in adulthood.. Pregnant rats were submitted to protein or calorie restriction during the course of gestation. During lactation, pups were protein-restricted, normally fed, or overfed [reduced litter size, control (C) diet]. At weaning, rats were transferred to chow or to a hypercaloric diet (HCD) known to induce obesity. Body weight, food intake, blood parameters, glucose tolerance, adipocyte cellularity, and adipose factors contributing to cardiovascular disease development were measured.. Protein and calorie restriction during gestation led to growth retardation at birth. If malnutrition was prolonged throughout lactation, adult body weight was permanently reduced. However, growth-retarded offspring overfed during the suckling period underwent a rapid catch-up growth and became heavier than the normally fed Cs. Offspring of calorie-restricted rats gained more weight than those of dams fed protein-restricted diet. Feeding an HCD postnatally amplified the effect of calorie restriction, and offspring that underwent catch-up growth became more obese than Cs. The HCD was associated with hyperphagia, hyperglycemia, hyperinsulinemia, glucose intolerance, insulin resistance, and adipocyte hypertrophy. The magnitude of effects varied depending on the type and the timing of early malnutrition. The expression of genes encoding factors implicated in cardiovascular disease was also modulated differently by early malnutrition and adult obesity.. Catch-up growth immediately after early malnutrition should be a key point for the programming of obesity.

Topics: Adipocytes; Adiponectin; Adipose Tissue; Angiotensinogen; Animals; Animals, Newborn; Body Weight; Diet; Eating; Female; Leptin; Litter Size; Male; Obesity; Plasminogen Activator Inhibitor 1; Pregnancy; Prenatal Exposure Delayed Effects; Protein-Energy Malnutrition; Rats; Rats, Wistar; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger; Time Factors; Triglycerides

The renin-angiotensin-aldosterone system has been causally implicated in obesity-associated hypertension. We studied the influence of obesity and weight reduction on the circulating and adipose tissue renin-angiotensin-aldosterone system in menopausal women. Blood samples were analyzed for angiotensinogen, renin, aldosterone, angiotensin-converting enzyme activity, and angiotensin II. In adipose tissue biopsy samples, we analyzed angiotensinogen, renin, renin-receptor, angiotensin-converting enzyme, and angiotensin II type-1 receptor gene expression. Obese women (n=19) had higher circulating angiotensinogen, renin, aldosterone, and angiotensin-converting enzyme than lean women (n=19), and lower angiotensinogen gene expression in adipose tissue. Seventeen women successfully participated in a weight reduction protocol over 13 weeks to reduce daily caloric intake by 600 kcal. Body weight was reduced by -5%, as were angiotensinogen levels by -27%, renin by -43%, aldosterone by -31%, angiotensin-converting enzyme activity by -12%, and angiotensinogen expression by -20% in adipose tissue (all P<0.05). The plasma angiotensinogen decrease was highly correlated with the waist circumference decline (r=0.74; P<0.001). Weight and renin-angiotensin-aldosterone system reductions were accompanied by a -7-mm Hg reduced systolic ambulatory blood pressure. These data suggest that a 5% reduction in body weight can lead to a meaningfully reduced renin-angiotensin-aldosterone system in plasma and adipose tissue, which may contribute to the reduced blood pressure.

Topics: Adipose Tissue; Aldosterone; Angiotensinogen; Blood Pressure; Blood Pressure Monitoring, Ambulatory; Case-Control Studies; Cross-Sectional Studies; Female; Humans; Middle Aged; Obesity; Peptidyl-Dipeptidase A; Renin; Renin-Angiotensin System; Weight Loss

Numerous association studies have been performed to evaluate the relationship between the angiotensinogen gene and the essential hypertension, but their results are conflicting. The conflicting results may be explained by methodological reasons, particularly genetic differences in the population samples, phenotypic differences in the hypertensive populations analyzed, lack of appropriate control for other hypertension risk factors in some studies, or limited statistical power among many studies. Furthermore, hypertension is a public health issue of great relevance in Baleric Islands (Spain). For these reasons we performed an association study about the relationship between the M235T, T174M and G-6A diallelic polymorphisms of the angiotensinogen gene and hypertension in a population from Majorca (Balearic Islands), in which a considerable homogeneity with respect to ethnicity and environmental factors could be documented. This population was composed of 109 patients and 107 controls. Alleles of the angiotensinogen gene were determined by PCR and restriction site polymorphism analysis. The different genotypes were tested for association with dependent variables by univariate and multivariate logistic regression analysis. In the univariate analysis we found no evidence of association between the angiotensinogen gene genotypes and hypertension. This lack of association was independent of obesity, familial history of hypertension and diabetes for the genotypes of the polymorphisms M235T and G-6A; however, in the multivariate analysis the T174T174 genotype showed an almost significant positive association with hypertension [OR = 2.76 (95% confidence interval: 1.00-7.65, p = 0.05)]. The T174T174 genotype also showed a significant negative association with obesity [OR = 0.41 (95% confidence interval: 0.18-0.90, p = 0.03)] that remained after adjustment by sex, hypertension and diabetes [OR = 0.26 (95% confidence interval: 0.10-0.65, p = 0.004)]. Our results: a) are in contrast with the results from most previous studies that found a relationship of the T174M polymorphism with hypertension, as in those studies the M174 allele was responsible for the association; b) emphasize the need for rigorous control for obsesity in the studies of association between the angiotensinogen gene and hypertension; c) underscore the importance and the utility of using concrete populations to carry out studies on the genetic dissection of hypertension.

Topics: Adult; Aged; Angiotensinogen; Female; Humans; Hypertension; Male; Middle Aged; Obesity; Polymorphism, Genetic; Spain

Adipose tissue represents an important source of angiotensinogen (AGT). We investigated the effect of obesity induced by a high-fat diet on the expression of mouse (mAGT) and human AGT (hAGT) genes in liver, kidney, and heart and different adipose depots in normal mice (C57BL/6J), and in transgenic mice expressing the hAGT gene under the control of its own promoter. Mice were fed a high-fat diet (45% kcal) or normal chow (10% kcal) for 10 and 20 wk. The expression of mAGT and hAGT mRNA was quantified using an RNAse protection assay. Mice on the high-fat diet exhibited increased weight, fat mass, and plasma leptin. Expression of mAGT or hAGT genes was not affected by high-fat diet in nonadipose tissues, brown adipose tissue, or subcutaneous white fat. In contrast, high-fat diet increased both mAGT and hAGT gene expression in visceral adipose depots (omental, reproductive, and perirenal fat). Thus obesity-induced by a high-fat diet is associated with a tissue-specific increased expression of both mouse and human AGT genes in intra-abdominal adipose tissue. Our findings also suggest that 1.2 kb of regulatory sequences present in the hAGT transgene are sufficient to transcriptionally respond to a high-fat diet in an adipose-specific and depot-specific manner.

Topics: Adipose Tissue; Angiotensinogen; Animals; Body Weight; Dietary Fats; Gene Expression; Hypertension; Leptin; Mice; Mice, Inbred C57BL; Mice, Transgenic; Obesity; RNA, Messenger

To investigate AGT secretion in cultured adipocytes from obese patients and its relationship with obesity-related phenotypes, blood pressure, and the M235T polymorphism in the AGT gene.. Measurements, including anthropometry, body composition (DXA), and blood pressure, were performed in 61 overweight or obese women (BMI: 28 to 68 kg/m(2)). A subcutaneous abdominal adipose tissue biopsy was used for adipocyte size determination and quantification of AGT secretion in the medium of cultured adipocytes. AGT M235T genotype was determined using polymerase chain reaction-restriction fragment length polymorphism.. Adipose secretion of the AGT protein (range, 140 to 2575 ng/10(6) cells/24 h) was not significantly correlated with BMI, body fat, or blood pressure and did not vary according to the M235T polymorphism in the AGT gene. However, the AGT M235T polymorphism was associated with adipocyte size (111.6 +/- 2.8, 108.8 +/- 1.9, 118.2 +/- 2.6 micro m in MM, MT, and TT genotypes, respectively; p < 0.01) after adjustment for age and fat mass. An association between the AGT M235T polymorphism and adipocyte size (p < 0.02 adjusted for sex, age, and BMI) was found in another independent sample of 106 obese subjects (sex ratio, M/F 16/90; BMI, 29 to 70 kg/m(2)).. In cultured adipocytes from obese subjects, AGT secretion was not associated with body fat phenotypes, blood pressure, or fat cell size. However, results from two independent studies suggest an association between the AGT M235T polymorphism and adipocyte size.

Topics: Abdomen; Adipocytes; Adult; Angiotensinogen; Biopsy; Blood Pressure; Body Composition; Cell Size; Cells, Cultured; Female; Genotype; Humans; Middle Aged; Obesity; Polymerase Chain Reaction; Polymorphism, Genetic; Polymorphism, Restriction Fragment Length

In obesity-related hypertension, activation of the renin-angiotensin system (RAS) has been reported despite marked fluid volume expansion. Adipose tissue expresses components of the RAS and is markedly expanded in obesity. This study evaluated changes in components of the adipose and systemic RAS in diet-induced obese hypertensive rats. RAS was quantified in adipose tissue and compared with primary sources for the circulating RAS. Male Sprague-Dawley rats were fed either a low-fat (LF; 11% kcal as fat) or moderately high-fat (32% kcal as fat) diet for 11 wk. After 8 wk, rats fed the moderately high-fat diet segregated into obesity-prone (OP) and obesity-resistant (OR) groups based on their body weight gain (body weight: OR, 566 +/- 10; OP, 702 +/- 20 g; P < 0.05). Mean arterial blood pressure was increased in OP rats (LF: 97 +/- 2; OR: 97 +/- 2; OP: 105 +/- 1 mmHg; P < 0.05). Quantification of mRNA expression by real-time PCR demonstrated a selective increase (2-fold) in angiotensinogen gene expression in retroperitoneal adipose tissue from OP vs. OR and LF rats. Similarly, plasma angiotensinogen concentration was increased in OP rats (LF: 390 +/- 48; OR: 355 +/- 24; OP: 530 +/- 22 ng/ml; P < 0.05). In contrast, other components of the RAS were not altered in OP rats. Marked increases in the plasma concentrations of angiotensin peptides were observed in OP rats (angiotensin II: LF: 95 +/- 31; OR: 59 +/- 20; OP: 295 +/- 118 pg/ml; P < 0.05). These results demonstrate increased activity of the adipose and systemic RAS in obesity-related hypertension.

Topics: Adipose Tissue; Angiotensinogen; Animals; Autoradiography; Blood Pressure; Cholesterol; Diet; DNA Primers; Gene Expression Regulation; Hemodynamics; Hypertension; Male; Obesity; Rats; Rats, Sprague-Dawley; Receptors, Angiotensin; Renin-Angiotensin System; Reverse Transcriptase Polymerase Chain Reaction; RNA; Weight Gain

To investigate the association of polymorphisms in the angiotensin system gene with obstructive sleep apnea-hypopnea syndrome (OSAHS).. The genotypes and alleles of angiotensin-converting enzyme (ACE) and angiotensinogen (AGT) genes were identified by polymerase chain reaction-restricted fragment length polymorphism assay in 221 unrelated subjects of the north region "Han" population of China (including 121 OSAHS subjects and 100 non-OSAHS subjects). The genotypes and allele frequencies of the polymorphisms were compared between OSAHS group and non-OSAHS group. The effects of the polymorphisms in OSAHS group on body mass index (BMI), neck circumference (NC), waist/hip rate (WHR), apnea-hypopnea index (AHI), systolic blood pressure (SBP), and diastolic blood pressure (DBP) were analysed.. There were significant differences in genotypes distribution in AGT polymorphism between the two groups (P = 0.009). Compared with the control group, OSAHS group had significantly higher T allele frequency in AGT polymorphism (P = 0.020). There were independent effects of AGT polymorphism on BMI, NC, WHR in OSAHS group, and carriers of the T allele of AGT polymorphism had greater BMI, NC, and WHR, while the carriers of the T allele had greater AHI, SBP, and DBP.. ACE polymorphism may not be correlated with central obesity and OSAHS in the population. AGT polymorphism may be involved in the development of central obesity and may be related to OSAHS and hypertension in OSAHS patients by the central obesity in male OSAHS subjects of North region "Han" population of China.

Topics: Adult; Angiotensinogen; Angiotensins; Blood Pressure; Gene Frequency; Genotype; Humans; Male; Obesity; Peptidyl-Dipeptidase A; Polymerase Chain Reaction; Polymorphism, Genetic; Sleep Apnea, Obstructive

The renin-angiotensin system is involved in adipocyte growth and differentiation and possibly in adipose tissue metabolism.. To investigate the association of polymorphism in the angiotensin-converting enzyme (ACE) I/D gene, angiotensinogen M235T gene, and angiotensin II type 1 receptor A1166C gene with body mass index, body fat pattern, and obesity-associated hypertension.. Cross-sectional longitudinal study.. The Olivetti factories in Marcianise and Pozzuoli, suburbs of Naples, Italy.. 959 adult men, 25 to 75 years of age.. Renin-angiotensin system polymorphism, anthropometric indexes, blood pressure, and serum glucose and insulin levels.. No association was detected between angiotensinogen or angiotensin II type 1 receptor gene polymorphism and anthropometric indexes or blood pressure. For ACE I/D polymorphism, significant age-genotype interaction was detected on cross-sectional observation; the relation of body mass index, waist circumference, and diastolic blood pressure to age was significantly greater in persons with the DD genotype than in those with the ID or II genotype. Overweight and abdominal adiposity were more common in men with the DD genotype, particularly among older participants (51.1% vs. 36.5% and 33.1% vs. 22.0%, respectively). Odds ratios were 1.82 (95% CI, 1.16 to 2.87) for overweight and 1.76 (CI, 1.06 to 2.90) for abdominal adiposity. Among 314 untreated men first examined 20 years earlier, those with the DD genotype had greater age-adjusted weight gain (1.45 kg [CI, 0.12 to 2.78 kg]) and change in diastolic blood pressure (2.83 mm Hg [CI, 0.39 to 5.28 mm Hg]). The relative risk for overweight was 2.34 (CI, 1.32 to 4.15) among participants with the DD genotype versus those with the ID or II genotype.. The ACE I/D polymorphism was a significant predictor of overweight and abdominal adiposity in men. DD homozygosity was associated with larger increases in body weight and blood pressure in aging persons, as well as with higher incidence of overweight.

Topics: Abdomen; Adipose Tissue; Adult; Aged; Angiotensinogen; Anthropometry; Body Weight; Cross-Sectional Studies; Humans; Hypertension; Longitudinal Studies; Male; Middle Aged; Obesity; Peptidyl-Dipeptidase A; Polymorphism, Genetic; Receptor, Angiotensin, Type 1; Receptors, Angiotensin; Renin-Angiotensin System

Topics: Abdomen; Adipose Tissue; Adult; Aged; Angiotensinogen; Anthropometry; Body Weight; Humans; Hypertension; Male; Middle Aged; Obesity; Peptidyl-Dipeptidase A; Polymorphism, Genetic; Receptor, Angiotensin, Type 1; Receptors, Angiotensin; Renin-Angiotensin System

Conjugated linoleic acid (CLA) is a mixture of positional and geometric isomers of linoleic acid found in beef, lamb, and dairy products. CLA has attracted considerable attention over the past several decades because of its potentially beneficial biological effects, including protective effects against several cancers, atherosclerosis, and obesity. Here we provide the first evidence that the 10trans,12cis-CLA isomer is able to suppress increases in blood pressure during the onset of obesity in OLETF rats. After 3 weeks of feeding with 10t,12c-CLA, systolic blood pressure was significantly lowered compared with rats fed linoleic acid or 9c,11t-CLA. Abdominal adipose tissue weight was also significantly lowered in rats fed 10t,12c-CLA, but not in those which were fed 9c,11t-CLA. In addition, we found that the relative mRNA expressions of angiotensinogen and leptin were suppressed by 10t,12c-CLA in adipose tissue. We speculate that the antihypertensive effect of 10t,12c-CLA can be attributed to the lowered secretion of hypertensive adipocytokines from abdominal adipose tissues.

Topics: Adipose Tissue; Angiotensinogen; Animals; Base Sequence; Dietary Fats, Unsaturated; Hypertension; Leptin; Linoleic Acid; Male; Obesity; Rats; Rats, Inbred OLETF; RNA, Messenger; Stereoisomerism

In idiopathic obesity circulating cortisol levels are not elevated, but high intraadipose cortisol concentrations have been implicated. 11beta-Hydroxysteroid dehydrogenase type 1 (11HSD1) catalyzes the conversion of inactive cortisone to active cortisol, thus amplifying glucocorticoid receptor (GR) activation. In cohorts of men and women, we have shown increased ex vivo 11HSD1 activity in sc adipose tissue associated with in vivo obesity and insulin resistance. Using these biopsies, we have now validated this observation by measuring 11HSD1 and GR mRNA and examined the impact on intraadipose cortisol concentrations, putative glucocorticoid regulated adipose target gene expression (angiotensinogen and leptin), and systemic measurements of cortisol metabolism. From aliquots of sc adipose biopsies from 16 men and 16 women we extracted RNA for real-time PCR and steroids for immunoassays. Adipose 11HSD1 mRNA was closely related to 11HSD1 activity [standardized beta coefficient (SBC) = 0.58; P < 0.01], and both were positively correlated with parameters of obesity (e.g. for BMI, SBC = 0.48; P < 0.05 for activity, and SBC = 0.63; P < 0.01 for mRNA) and insulin sensitivity (log fasting plasma insulin; SBC = 0.44; P < 0.05 for activity, and SBC = 0.33; P = 0.09 for mRNA), but neither correlated with urinary cortisol/cortisone metabolite ratios. Adipose GR-alpha and angiotensinogen mRNA levels were not associated with obesity or insulin resistance, but leptin mRNA was positively related to 11HSD1 activity (SBC = 0.59; P < 0.05) and tended to be associated with parameters of obesity (BMI: SBC = 0.40; P = 0.09), fasting insulin (SBC = 0.65; P < 0.05), and 11HSD1 mRNA (SBC = 0.40; P = 0.15). Intraadipose cortisol (142 +/- 30 nmol/kg) was not related to 11HSD1 activity or expression, but was positively correlated with plasma cortisol. These data confirm that idiopathic obesity is associated with transcriptional up-regulation of 11HSD1 in adipose, which is not detected by conventional in vivo measurements of urinary cortisol metabolites and is not accompanied by dysregulation of GR. Although this may drive a compensatory increase in leptin synthesis, whether it has an adverse effect on intraadipose cortisol concentrations and GR-dependent gene regulation remains to be established.

Topics: 11-beta-Hydroxysteroid Dehydrogenases; Adipose Tissue; Angiotensinogen; Cortisone; Female; Humans; Hydrocortisone; Hydroxysteroid Dehydrogenases; Insulin Resistance; Leptin; Male; Middle Aged; Obesity; Receptors, Glucocorticoid; RNA, Messenger; Up-Regulation

The extent to which genes modify the relationship between risk factors for hypertension and blood pressure (BP) is unclear. As angiotensinogen is expressed in adipose tissue and angiotensinogen (AGT) gene promoter variants influence the production of angiotensinogen, we evaluated the role of AGT gene variants as potential modifiers of body size-BP relations.. Five hundred twenty-one hypertensives of African origin sampled from a group with a high mean body mass index (BMI) had 24-hour ambulatory BP (ABP) measurements determined off therapy and were genotyped for the AGT -6G-->A, -532C-->T, -20A-->C, and 704T-->C (M235T) gene variants. Genotypes were also determined in 547 control subjects of African origin who had a normal clinic BP. The -6A and -532C alleles were concordant with the M235T variant. Although AGT gene variants had no independent effects on either the presence of hypertension or ABP values in hypertensives, the -20A-->C polymorphism had a marked influence on the relation between ambulatory systolic BP and BMI. This relation was present in patients homozygous for the -20A allele (n=399, r=0.23, P<0.0001), but absent in those with at least one copy of the -20C allele (n=122, r=0.01, P=0.89). The M235T polymorphism did not impact on the BMI-BP relation. Specificity of the -20A-->C polymorphism effect on the BMI-BP relation is further indicated by the lack of effect on the systolic BP-age relation.. An AGT gene promoter region variant is an important modifier of the relation between body size and BP. Hence, these data corroborate the notion that genetic modifiers can produce a profound impact on BP-phenotypic relations.

Topics: Angiotensinogen; Blood Pressure Monitoring, Ambulatory; Body Constitution; Body Mass Index; Female; Genetic Predisposition to Disease; Genotype; Humans; Hypertension; Male; Middle Aged; Obesity; Phenotype; Polymorphism, Genetic; Promoter Regions, Genetic; Risk Factors

We investigated angiotensinogen (AGT) expression in adipose tissue and liver of Zucker rats during the onset of obesity. The developmental pattern of AGT expression (protein and mRNA) in liver was similar in both genotypes. In inguinal adipose tissue, AGT cell content was similar in suckling and weaned pups in lean rats, whereas it continuously increased with age in obese rats. AGT amount in adipocytes was unaffected by the genotype until weaning. Thereafter, adipocytes from obese rats displayed a significant increase in AGT content that was strengthened with age. Compared with the cell content, the amount of secreted AGT over 24 h was higher, and a genotype effect was observed as early as 14 days of age. Using fat cell populations differing by size, we showed that this AGT oversecretion was not solely related to adipocyte hypertrophy. Our results demonstrate that the fa genotype exerts a control on the production of AGT in a tissue-specific manner, suggesting a local role of AGT in the overdevelopment of adipose tissue.

Topics: Adipocytes; Adipose Tissue; Angiotensinogen; Animals; Cell Size; Cells, Cultured; Genotype; Liver; Obesity; Rats; Rats, Zucker; Reference Values; RNA, Messenger

In the obese state, enlarged adipose cells display an altered gene-expression profile and metabolic capacity. The aim of this study was to gain insight into their secretory function, by assessing two secreted proteins, leptin and angiotensinogen, in adipose cells of obese (fa/fa) Zucker rats. A marked and co-ordinate increase in leptin mRNA, gene transcription and promoter activity was observed in obese compared with lean (Fa/fa) rat adipose cells, and this resulted in increased leptin release in culture. Two sets of observations suggest that this effect is due to the fa mutation. First, adipose-cell leptin release was higher in heterozygous (Fa/fa) than in homozygous (Fa/Fa) lean rats. Second, leptin release was not enhanced in enlarged adipose cells of FalFa rats fed a high-fat diet for 15 days. At variance with leptin, angiotensinogen production was not significantly increased in the obese cells. Dexamethasone stimulated both leptin and angiotensinogen release in lean and obese rat adipose cells. The magnitude of leptin stimulation was higher in fa/fa than in Fa/fa rats, whereas angiotensinogen release was increased to the same extent in both genotypes. These observations suggest that leptin production is specifically enhanced in enlarged adipose cells of obese Zucker rats and that cell hypertrophy is not the sole determinant of this feature. Increased leptin production might be related to disruption of leptin signalling by the fa mutation.

Topics: Adipose Tissue; Angiotensinogen; Animals; Dexamethasone; Diet; Gene Dosage; Gene Expression; Leptin; Male; Mutation; Obesity; Rats; Rats, Zucker; Transcription, Genetic; Transfection

The renin-angiotensin-aldosterone system (RAAS) plays a well-recognized role in the regulation of BP and in salt and water balance. Since hypertension affects a considerable proportion of obese patients, circulating RAAS has been studied in obese subjects with and without hypertension, albeit with conflicting results. Furthermore, attention has recently focused on the expression of the components of the Renin-angiotensin system (RAS) in some organs, including adipose tissue where it seems to be involved in the regulation of growth and differentiation. The aim of our study was to investigate circulating RAAS and adipose tissue RAS in obese patients with and without hypertension and in matched controls. PRA, and plasma and urinary aldosterone levels were measured in 35 obese, 30 hypertensive obese patients and in 20 controls. In addition, the expression of angiotensinogen (AGT) and angiotensin II type 1 receptor (AT1) genes was studied in sc adipose tissue from 8 obese, 6 hypertensive obese and 6 healthy subjects. As previously demonstrated in other studies, there were no significant differences in the levels of circulating RAAS components in the 3 groups. As regards local RAS, interestingly, we found that AT1 gene was significantly more expressed in sc adipose tissue from obese patients with hypertension than in those without hypertension and controls. By contrast, AGT levels were similar in the 3 groups. Our data do not support the hypothesis of an involvement of circulating RAAS in the development of obesity-related hypertension. On the other hand, local RAS seems to be differently regulated in sc adipose tissue from obese patients with hypertension with respect to normotensive obese patients and controls.

Topics: Adipose Tissue; Adult; Aldosterone; Angiotensinogen; Blood; Female; Humans; Hypertension; Male; Middle Aged; Obesity; Receptor, Angiotensin, Type 1; Receptors, Angiotensin; Reference Values; Renin; Renin-Angiotensin System; RNA, Messenger

Elevated plasma angiotensinogen (AGT) levels have been demonstrated in insulin-resistant states such as obesity and type 2 diabetes mellitus (DM2), conditions that are directly correlated to hypertension. We examined whether hyperinsulinemia or hyperglycemia may modulate fat and liver AGT gene expression and whether obesity and insulin resistance are associated with abnormal AGT regulation. In addition, because the hexosamine biosynthetic pathway is considered to function as a biochemical sensor of intracellular nutrient availability, we hypothesized that activation of this pathway would acutely mediate in vivo the induction of AGT gene expression in fat and liver. We studied chronically catheterized lean (approximately 300 g) and obese (approximately 450 g) Sprague-Dawley rats in four clamp studies (n = 3/group), creating physiological hyperinsulinemia (approximately 60 microU/ml, by an insulin clamp), hyperglycemia (approximately 18 mM, by a pancreatic clamp using somatostatin to prevent endogenous insulin secretion), or euglycemia with glucosamine infusion (GlcN; 30 micromol. kg(-1). min(-1)) and equivalent saline infusions (as a control). Although insulin infusion suppressed AGT gene expression in fat and liver of lean rats, the obese rats demonstrated resistance to this effect of insulin. In contrast, hyperglycemia at basal insulin levels activated AGT gene expression in fat and liver by approximately threefold in both lean and obese rats (P < 0.001). Finally, GlcN infusion simulated the effects of hyperglycemia on fat and liver AGT gene expression (2-fold increase, P < 0.001). Our results support the hypothesis that physiological nutrient "pulses" may acutely induce AGT gene expression in both adipose tissue and liver through the activation of the hexosamine biosynthetic pathway. Resistance to the suppressive effect of insulin on AGT expression in obese rats may potentiate the effect of nutrients on AGT gene expression. We propose that increased AGT gene expression and possibly its production may provide another link between obesity/insulin resistance and hypertension.

Topics: Adipose Tissue; Angiotensinogen; Animals; Blood Glucose; Body Composition; Body Weight; Gene Expression Regulation; Glucosamine; Glucose Clamp Technique; Hexosamines; Hyperglycemia; Hyperinsulinism; Infusions, Intravenous; Insulin; Insulin Resistance; Liver; Male; Obesity; Rats; Rats, Sprague-Dawley

To investigate in obese subjects the relationship between angiotensinogen gene expression in the abdominal omental and subcutaneous adipose tissue on the one hand and body fat distribution as measured by waist-to-hip ratio (WHR) on the other hand and to compare angiotensinogen gene expression between the two adipose tissue regions.. Twenty obese subjects undergoing weight reduction surgery with adjustable gastric banding (12 men, eight women; WHR 0.89-1.09; body mass index (BMI) 29-51 kg/m2, age 26-54 y).. Omental and subcutaneous adipose angiotensinogen mRNA and 18S ribosomal RNA (reference gene) levels were measured by competitive quantitative reverse transcriptase-polymerase chain reaction.. Angiotensinogen mRNA levels were one-third higher in the omental than in the subcutaneous adipose tissue region (P=0.02). The 18S rRNA levels did not differ significantly between the two adipose tissue regions. WHR correlated positively and significantly with angiotensinogen mRNA in both the subcutaneous and the omental adipose tissue (r=0.5). This relationship was independent of age and BMI. However, WHR did not correlate with 18S rRNA in any of the adipose tissue regions.. The angiotensinogen gene in adipose tissue might be involved in the development of upper-body obesity.

Topics: Abdomen; Adipose Tissue; Adult; Angiotensinogen; Biopsy; Body Composition; Body Constitution; Body Mass Index; Female; Gastroplasty; Gene Expression; Humans; Male; Middle Aged; Obesity; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger; RNA, Ribosomal, 18S

Adipose angiotensinogen has been suggested as a stimulator of adipose tissue growth and development. Therefore, the association of subcutaneous adipose angiotensinogen gene expression with human obesity was studied.. The study group consisted of 17 men, undergoing either gastric banding for obesity or elective laparoscopic cholecystectomy (7 obese, 10 non-obese men; body mass index 22 to 51 kg/m2; age 26 to 68 years). Subcutaneous adipose angiotensinogen mRNA and 18S ribosomal RNA (reference gene) levels were measured using competitive quantitative reverse transcriptase-polymerase chain reaction.. Adipose angiotensinogen mRNA expression was about two times increased in obesity. The levels of 18S rRNA did not differ between the two groups. Body weight correlated independently and positively with adipose angiotensinogen mRNA expression after adjusting for differences in age and height.. Adipose angiotensinogen gene expression is elevated in obesity in men.

Topics: Adipose Tissue; Adult; Aged; Angiotensinogen; Body Mass Index; Cholecystectomy; Gene Expression; Humans; Male; Middle Aged; Obesity; Regression Analysis; RNA, Messenger; RNA, Ribosomal, 18S; Stomach

Recently, the genes of components of the renin-angiotensin system (RAS), namely angiotensinogen (AGT), angiotensin converting enzyme and angiotensin II receptor have been described in adipose tissue. In animal models the angiotensinogen in adipose tissue has been implicated in the pathogenesis of metabolic alterations and hypertension associated with obesity. The aim of our study was to evaluate the AGT gene expression both in visceral and subcutaneous adipose tissue in obese patients and lean subjects. AGT mRNA levels were measured by reverse transcriptase polymerase chain reaction (RT-PCR) using specific primers. AGT mRNA was expressed at variable levels in obese patients. It was significantly greater in visceral than in subcutaneous adipose tissue. Positive and significant correlation was found between the expression of AGT in visceral adipose tissue and BMI. These data suggest that angiotensinogen may be determinant of fat distribution and may be involved in the plurimetabolic syndrome of central obesity.

Topics: Adipose Tissue; Angiotensinogen; Gene Expression; Humans; Obesity; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger

The relationship between circulating levels of angiotensinogen and hypertension in the epidemiologic setting has not been studied much. Recent findings related to the association between hypertension and polymorphisms of the angiotensinogen gene have generated new interest in this potential pathway to hypertension.. To examine environmental factors associated with levels of circulating angiotensinogen as determinants of hypertension in populations of African origin.. We recruited 1557 participants from communities in Nigeria (n = 611), Zimbabwe (n = 161), Jamaica (n = 476), and Maywood, Illinois, USA (n = 309).. Mean angiotensinogen levels varied widely across groups (Nigeria 1381 ng/ml angiotensin I generated, Zimbabwe 1638 ng/ml angiotensin I generated, Jamaica 1808 ng/ml angiotensin I generated, and Maywood 2039 ng/ml angiotensin I generated). Average body mass index was highly correlated to angiotensinogen level across the population samples, accounting for 90% of the between-sample variation. At the individual level the correlation between body mass index and angiotensinogen level was substantially smaller, in the range 0.04-0.15, although the association attained statistical significance for all but one of the populations. Women had higher levels of angiotensinogen and mean levels in subjects of both sexes declined in late middle age. Hypertensives also had significantly higher levels of angiotensinogen and we noted correlations to blood pressure for two of the four populations.. Obesity, sex and age would all appear to be important modifiers of circulating angiotensinogen levels. The variation in level across populations was substantially larger than that which has been found previously in association with known genetic polymorphisms within populations, suggesting the possibility that environmental effects are more important than had previously been recognized.

Topics: Adult; Age Factors; Angiotensinogen; Black People; Female; Humans; Illinois; Jamaica; Male; Middle Aged; Nigeria; Obesity; Sex Factors; Zimbabwe

In this study we wanted to evaluate the relationship between the ob gene product leptin and blood pressure, as well as plasma renin activity and plasma aldosterone levels. We studied 139 subjects with a mean+/-SD age of 50 +/-14 years and a body mass index of 26.5+/-5.3 kg/m2; 110 subjects had essential hypertension and 29 were healthy nonhypertensive controls. Blood pressure was measured in resting conditions in the morning and blood was drawn for the determination of the plasma renin activity, aldosterone, and leptin levels. The mean blood pressure of the population was 155/97 mm Hg. The relationship between these parameters was studied by univariate regression analysis according to gender and, whenever indicated, adjusted for age and body mass. The mean+/-SEM plasma leptin level in the whole population was 9.5+/-0.6 ng/mL (range, 1.1-43.3). Subjects with stage I hypertension had significantly higher plasma leptin levels than normotensive subjects. Systolic blood pressure correlated with the plasma leptin levels and the leptin levels adjusted for body weight in women (r = 0.422, P < .01) and nonhypertensive men (r = 0.644, P = .03) only. Plasma renin activity (r = 0.329, P = .03) and aldosterone levels (r = 0.342, P = .026) correlated with the leptin concentration. A significant relationship between the peripheral expression of the ob gene product leptin and systolic blood pressure was found in women and nonhypertensive men. In view of the multiple functions of leptin a causal relationship is postulated and potential mechanisms may involve modulatory effects of leptin on neuropeptide Y, angiotensinogen gene expression, the modulation of the autonomous nervous system, or effects on the pituitary adrenal axis. Direct relationships between both plasma renin activity and aldosterone levels and leptin support the potential importance of the relationship between leptin and blood pressure. Our observation may be of future importance for the understanding of the link between the increase in blood pressure and increasing body weight.

Topics: Adult; Aged; Angiotensinogen; Blood Pressure; Female; Humans; Hypertension; Leptin; Male; Middle Aged; Obesity; Proteins; Renin

The renin-angiotensin system (RAS) plays a crucial role in the regulation of fluid volume, thereby influencing blood pressure (BP). Obesity is an important risk factor for hypertension, however the physiologic basis for this relationship has not been clarified. In a population survey we examined the potential relationship between the RAS and obesity. Based on community sampling, 449 individuals were recruited from metropolitan Kingston, Jamaica. Serum angiotensin-converting enzyme (ACE) and circulating angiotensinogen levels were measured and the associated genes were typed for previously described polymorphisms. Obese individuals (body mass index > 31) had significantly higher serum ACE and angiotensinogen levels, this relationship persisted for ACE in multivariate analyses controlling for BP, hypertension status, age, and gender. The insertion/deletion polymorphism of the ACE gene was associated with variation in the levels of ACE, but inconsistently with body mass index. Variants of the angiotensinogen gene leading to amino acid substitutions at positions 174 and 235 did not influence levels either of angiotensinogen or obesity. These data suggest that obesity may alter the levels of ACE and angiotensinogen, and provide a potential pathway through which obesity leads to elevation of BP.

Topics: Adult; Angiotensinogen; Female; Humans; Hypertension; Male; Middle Aged; Obesity; Peptidyl-Dipeptidase A; Polymorphism, Genetic; Risk Factors

Wistar fatty rats (WFR) show obesity and obesity-related features, including hypertension. In this study, we examined the expression of angiotensinogen mRNA in a variety of tissues at different times in WFR and control Wistar lean rats (WLR). WFR were obese and hypertensive at 16 and 24 wk. Plasma renin activity and plasma angiotensinogen concentration showed age-dependent increases in WFR but decreases in WLR. Northern blot analysis showed no significant differences in the levels of hepatic and renal angiotensinogen mRNA between WFR and WLR, and the levels of fat and adrenal angiotensinogen mRNA were lower in WFR than in WLR. On the other hand, the levels of cardiac angiotensinogen mRNA at 16 and 24 wk and those of aortic angiotensinogen mRNA at 16 wk were significantly higher in WFR than in WLR. These results show that the expression of tissue angiotensinogen mRNA is regulated differently in WFR and WLR and indicate that the development of hypertension in WFR is accompanied at least temporally with increases in plasma angiotensinogen concentration as well as in cardiac and aortic angiotensinogen mRNA. Moreover, these results suggest the existence of obesity hypertension-linked and tissue-specific regulation of angiotensinogen gene expression.

Topics: Angiotensinogen; Animals; Female; Gene Expression; Hypertension; Obesity; Rats; Rats, Wistar; Reference Values; Renin-Angiotensin System; RNA, Messenger; Tissue Distribution

Synthesis of angiotensin II (ANG II) has recently been described in adipose cells and has been linked to regulation of adiposity. Angiotensinogen (AGT), the substrate from which ANG II is formed, was previously shown to be elevated in adipose tissue of obese (ob/ob and db/db) mice and regulated by nutritional manipulation. It is unknown, however, whether overexpression of adipose AGT can be extended to other models of obesity and whether hormonal and/or nutritional factors directly regulate AGT expression in adipocytes. We investigated these possibilities by analyzing AGT mRNA levels in adipose tissue of obese Zucker rats, viable yellow (Avy) mice, and humans and by treating 3T3-L1 adipocytes with insulin, glucose, and a beta-adrenergic agonist. We demonstrate that AGT mRNA is decreased by approximately 50 and 80%, respectively, in adipose tissue of obese vs. lean Zucker rats and Avy mice. We also report that AGT is expressed at variable levels in human adipose tissue. Finally, we show that AGT mRNA is upregulated by insulin and downregulated by beta-adrenergic stimulation in adipocytes.

Topics: 3T3 Cells; Adipocytes; Adipose Tissue; Adrenergic beta-Agonists; Adult; Analysis of Variance; Angiotensinogen; Animals; Cells, Cultured; Crosses, Genetic; Female; Gene Expression Regulation; Glucose; Humans; Insulin; Isoproterenol; Liver; Male; Mice; Mice, Inbred A; Mice, Inbred C57BL; Mice, Obese; Middle Aged; Obesity; Rats; Rats, Zucker; RNA, Messenger; Transcription, Genetic

Recently, we reported evidence for genetic linkage between human essential hypertension and the angiotensinogen gene (AGT) and an association with a common molecular variant of this gene (methionine 235 --> threonine or T235). Other studies had led us to hypothesize that blunted renal plasma flow responses to infused angiotensin II (Ang II) when in high salt balance may reflect increased intrarenal formation of Ang II, a condition that might promote hypertension. Here we examine the relationship between AGT genotype and renal vascular response to infused Ang II.. Hypertensive (n = 34, all off medication) and normotensive (n = 57) members of families with a history of hypertension (age 18-60 years) as well as 29 normotensive volunteers without a family history of hypertension were studied after controlled diets with 200 mequiv./day sodium. Ang II was infused at a mildly pressor dose (3 ng/kg/min) and renal plasma flow was determined by steady-state plasma para-aminohippurate concentration.. After correction for covariates in multivariate analyses, participants homozygous for the T235 variant had significantly diminished renal plasma flow responses to the Ang II infusion (P = 0.005). Changes in renal arterial resistance were also blunted in the T235 homozygotes. Similar results were found when analysis was restricted to normotensive participants or subdivided based on family history of hypertension. No confounding factors associated with AGT genotype that could explain these differences were found. Furthermore, obesity, which also suppressed renovascular response to Ang II, was found to interact significantly (P = 0.017) with genotype such that, among T235 homozygotes, obesity had a greater blunting effect on renal vascular response.. Expected renovascular response to infused Ang II was blunted in persons with the AGT TT genotype. This is the first report of an association between a specific gene variant and altered renal physiology in humans with particular relevance to essential hypertension.

Topics: Adolescent; Adult; Angiotensin II; Angiotensinogen; Base Sequence; Blood Pressure; Body Mass Index; Female; Genotype; Homozygote; Humans; Hypertension; Infusions, Intravenous; Kidney; Male; Middle Aged; Molecular Sequence Data; Obesity; Oligonucleotide Probes; Pedigree; Renal Artery; Renal Plasma Flow; Vascular Resistance; Vasoconstrictor Agents

Interindividual variation in fat deposition in swine is determined by loci on porcine chromosome 4, which are contained in a region that is syntenic with part of the long arm of human chromosome 1. We hypothesized that genomic variation of chromosome 1q would be associated with variation in the ratio of waist-to-hip circumference in male North American Hutterites, a genetic isolate characterized by significant relatedness and sharing of environmental factors.. In 316 male Hutterites, we tested for phenotype-genotype association of two DNA polymorphisms on chromosome 1q and the ratio of waist-to-hip circumference. We included control loci on 10 other chromosomes in the multivariate model. We observed that DNA variation on chromosome 1q was significantly associated with variation in the ratio of waist-to-hip circumference in men (P = .0029).. The association of DNA variation chromosome 1q with the ratio of waist-to-hip circumference in male Hutterites suggests that there are important structural elements in this genomic region that have a functional impact on body fat distribution.

Topics: Adipose Tissue; Alberta; Angiotensinogen; Body Constitution; Body Mass Index; Christianity; Chromosomes, Human, Pair 1; Consanguinity; Gene Frequency; Genetic Markers; Genetic Variation; Genotype; Humans; Linkage Disequilibrium; Male; Obesity; Sex Chromosomes