leptin and oleoyl-estrone

We investigated whether the substitution of the fatty acid moiety in oleoyl-estrone (OE) by conjugated linoleic acid, i.e. conjugated linoleoyl-estrone (cLE) may help improve the antiobesity effects of OE. Overweight (17% fat) male rats were treated for 10 days with oral OE or cLE (10 nmol/g per day) and compared with controls receiving only the oily vehicle. Rat weight and food intake were measured daily. After killing by decapitation, body composition and main plasma parameters were analysed. cLE induced marked decreases in body weight, energy intake, carcass energy and body lipid, whilst sparing protein; the effects were not significantly different from those obtained with OE. Energy expenditure was unchanged, but energy intake decreased to 46% (OE) or 55% (cLE) of controls; whole body energy decreased by 29% (OE) or 24% (cLE) in the 10-day period studied. Plasma composition showed almost identical decreases in glucose and cholesterol elicited by OE and cLE, with a more marked decrease in triacylglycerols by OE and no effect of either on NEFA. OE decreased leptin and insulin levels, but the effects of cLE were more marked on both, with similar decreases in adiponectin. It can be concluded that cLE is a new drug of the OE family; its overall effects on energy were akin to those of OE, albeit fractionally less effective at the single dose tested. However, this lower potency on lipid mobilisation does not affect other effects, such as powerful hypercholesterolemic effects or the modulation of adiponectin. And last, but not least, cLE seems to produce a more marked decrease in leptin and insulin than OE, which may reflect a coordinate action of the conjugated linoleic acid moiety and the "OE effect" on target tissues. If that were the case, cLE may constitute an improvement over OE in its action on insulin resistance.

Topics: Animals; Anti-Obesity Agents; Body Composition; Estrone; Insulin; Leptin; Linoleic Acid; Lipid Mobilization; Male; Oleic Acids; Rats; Rats, Wistar

Oleoyl-estrone (OE) decreases appetite, maintains energy expediture, induces lipolysis (sparing protein), and decreases cholesterolemia and insulin resistance. Rimonabant (SR141716) is a cannabinoid-receptor inhibitor that decreases appetite and mobilizes fat. We studied whether their combination improves their slimming effects. Male overweight rats received daily gavages of 5.3 mg/kg OE, 10 mg/kg rimonabant, or both drugs during 10 days. Body weight and composition, energy balance, adipose tissue weight, and serum hormones and metabolites were measured. OE halved food intake and maintained energy expenditure at the expense of body fat. Rimonabant effects on appetite and energy balance were less marked, resulting in lower lipid mobilization. OE and rimonabant followed the OE pattern, with no additive or synergic effects. Glycemia was maintained, but OE decreased insulin, GLP-1, and cholesterol, whilst rimonabant increased cholecystokinin and cholesterol, and decreased NEFA. Both drugs decreased leptin and triacylglycerols; ghrelin was unchanged. The results hint at different mechanisms of action of both drugs: we can assume that OE effects do not involve the cannabinoid pathway. OE does not seem to act, either, after 10 days, through the secretion of ghrelin or the intestinal appetite-controlling peptides tested.

Topics: Animals; Anti-Obesity Agents; Appetite; Blood Glucose; Cholecystokinin; Cholesterol; Drug Synergism; Drug Therapy, Combination; Eating; Energy Metabolism; Estrone; Fatty Acids, Nonesterified; Ghrelin; Glucagon-Like Peptide 1; Insulin; Leptin; Male; Obesity; Oleic Acids; Overweight; Peptide Hormones; Piperidines; Pyrazoles; Rats; Rats, Wistar; Rimonabant; Triglycerides

To determine whether or not the weight (and fat) loss induced by oleoyl-oestrone treatment results only as a consequence of decreased food intake, we compared treated animals with a pair-fed model. To this end, Wistar female rats received daily oral gavages of 10 mumol/kg per d oleoyl-oestrone in sunflower oil, or vehicle alone for 10 or 20 d. A second group of rats received the gavage of sunflower oil and the same amount of food ingested as the oleoyl-oestrone-treated animals (pair-fed group). Rats treated with oleoyl-oestrone maintained glucidic metabolism homeostasis despite a marked decrease in adipose tissue weight (P<0.001). Pair-fed rats exhibited a different pattern, comparable to short-term starvation, with greatly decreased glycogen stores (P<0.0001). The most significant effects were detected in the 10 d period groups. Oleoyl-oestrone affected the activity of the ponderostat system not only by decreasing appetite but also by modifying energy partition: treated animals maintained their glucose and energy homeostasis despite decreased food intake and the massive depletion of lipid stores.

Topics: 3-Hydroxybutyric Acid; Adiponectin; Administration, Oral; Animals; Anti-Obesity Agents; Blood Glucose; Cholesterol; Dietary Fats, Unsaturated; Eating; Estrone; Female; Homeostasis; Insulin; Leptin; Oleic Acids; Organ Size; Plant Oils; Rats; Rats, Wistar; Sunflower Oil; Triglycerides; Weight Loss

We studied the effects of a 10-day oral 10 micromol/kg oleoyl-estrone (OE) treatment on streptozotocin-diabetic Wistar, Goto-Kakizaki and control Wistar rats. Streptozotocin rats lost more than half the energy ingested as urine glucose. Oleoyl-estrone induced the loss of body weight (mainly body fat) in all groups. Energy expenditure was similar in the three groups of rats studied. Water turnover was deranged in streptozotocin rats, which spent 14% of energy available heating the water drunk. Body lipids were highest in Goto-Kakizaki; lipid levels in streptozotocin rats were very low. Oleoyl-estrone decreased body lipid content in Wistar and Goto-Kakizaki; oleoyl-estrone decreased triacylglycerols (44% in Wistar and Goto-Kakizaki and 22% in streptozotocin rats) and phospholipids but did not affect body cholesterol. Oleoyl-estrone decreased insulin and leptin, did not affect blood glucose but decreased plasma glucose in all groups. There were no changes in plasma triacylglycerols or fatty acids, but HDL, LDL and cholesterol decreased in all groups. The same effects of OE on insulin, plasma (but not blood) glucose and leptin were observed in both models, but the presence of insulin seems to be needed for OE to normalise glycaemia and to facilitate the uptake and utilisation of glucose by tissues. This different handling of glucose and triacylglycerol energy accounts for the disparate effects of OE on energy balance. The main conclusion of this study is that OE function as a lipid-mobilising hormone is dependent on the mass of reserves available, which in turn is closely related to insulin status. Lack of insulin thus results in limited OE effects, and insulin resistance does not prevent or limit the effects of OE on energy homeostasis or the mobilisation of fat.

Topics: Administration, Oral; Animals; Anti-Obesity Agents; Blood Glucose; Body Water; Body Weight; Cholesterol, HDL; Cholesterol, LDL; Drinking; Energy Metabolism; Estrone; Glucose; Insulin; Leptin; Lipid Metabolism; Lipids; Oleic Acids; Rats; Rats, Inbred Strains; Rats, Wistar; Streptozocin; Urea

To determine whether the oral administration of oleoyl-estrone has similar mass-decreasing effects on the main different sites of white adipose tissue (WAT).. Adult male Zucker lean rats were given a daily oral gavage of oleoyl-estrone (OE, 10 micromol/kg) in 0.2 ml of sunflower oil for 10 days, and were compared with controls receiving only the oil. The mass of the main WAT sites: subcutaneous, epididymal, mesenteric, retroperitoneal, gluteal, perirenal and interscapular, as well as perirenal and interscapular brown adipose tissue (BAT), were dissected and studied.. The tissue weight, DNA, protein, lipid and total cholesterol content, together with the levels of leptin and acyl-estrone in the larger WAT and BAT masses, were measured.. The weights of WAT depots were correlated with body weight but those of BAT were not. Cell size was maximal for epididymal and mesenteric and minimal for subcutaneous and retroperitoneal WAT and BAT. Differences were detected in DNA, and in protein and lipid content between distinct WAT sites. OE treatment tended to decrease cell number and cell size in WAT; only small differences in composition were found between WAT locations inside the visceral cavity and those outside. Decreases in lipid content were maximal in mesenteric fat. Leptin and acyl-estrone content were fairly uniform at the different WAT sites, except for high concentrations in gluteal WAT. OE induced a greater decrease in leptin and acyl-estrone than in DNA and lipids; changes in these hormones were fairly parallel in all sites.. In general, the differences in composition between visceral and peripheral subcutaneous WAT and their responses to OE were less marked than the individual differences observed between specific sites, regardless of location. WAT sites are fairly diverse in composition, but their response to OE treatment was uniform. OE decreased the weight of WAT through reduction of both cell numbers and size; but did not change the mass or composition of BAT significantly. The effects of OE are more marked in the hormonal signals (leptin and acyl-estrone) from the tissue than in its composition and mass.

Topics: Adipose Tissue; Adipose Tissue, Brown; Administration, Oral; Animals; Anti-Obesity Agents; Cholesterol; Estrone; Leptin; Lipid Metabolism; Male; Oleic Acids; Proteins; Rats; Rats, Zucker

Preadipocytes (3T3 L1) were used between 7 and 14 days after differentiation; they were incubated with 44 nM 3H-esterone. The medium was supplemented with 1 microM recombinant murine leptin, 10 nM recombinant human insulin, or 1 microM corticosterone for up to 72 hr. In a second series of experiments, cells were incubated for 48 hr with different concentrations of leptin, insulin or corticosterone, and compared with controls (plain medium). Cells were harvested, washed in buffer and homogenized, and protein was measured. Lipid extracts of cell homogenates were used for HPLC; the label distribution in free and acylestrone peaks was measured. Overall uptake of estrone (i.e., the sum of free and acylestrone) by cells was not affected by leptin or corticosterone, but strongly reduced by insulin. Leptin and corticosterone increased the synthesis of acyl-esterone in a dose- and time-dependent way. Insulin decreased acyl-estrone synthesis at low concentrations and with little change over time. The results suggest that control of oleoyl-estrone deposition in adipocytes is modulated in at least two distinct steps: (a) estrone uptake, affected by insulin in the physiological range; and (b) synthesis of oleoyl-estrone from cell estrone. The latter may be affected by insulin, but leptin and corticosterone enhance the process.

Topics: 3T3 Cells; Adipocytes; Animals; Cattle; Corticosterone; Estrone; Insulin; Leptin; Mice; Oleic Acids; Recombinant Proteins; Statistics as Topic

Oleoyl-estrone administration induces the rapid loss of fat preserving body protein.. We intended to check whether the fat-shedding effect of oleoyl-estrone arrests growth in young rats, limiting the buildup of protein and fat.. Oleoyl-estrone diluted in a powdered hyperlipidic diet (33 mumol/kg) was given for 30 days to 30-day old Zucker lean (Fa/?) rats. Their body weight and food consumption were followed daily; on day 30 of treatment (60-day old rats), whole body composition (lipid, protein) was determined, and plasma energy parameters and leptin were measured.. Oleoyl-estrone-treated rats grew more slowly than controls fed the hyperlipidic diet alone, and on day 60 their lipid content was about half that of controls. Protein content per kg was identical in both groups, but treated rats tended to accumulate less nitrogen and energy because of their smaller size. No changes in plasma glucose, urea, triacylglycerols or total cholesterol were observed, but oleoyl-estrone-treated rats showed lower circulating leptin than controls.. Despite limiting the accumulation of lipids, oleoyl-estrone slowed, but did not arrest growth of young rats, nor elicit a loss of fat or protein.

Topics: Animals; Anti-Obesity Agents; Body Composition; Body Weight; Energy Intake; Energy Metabolism; Estrone; Female; Growth; Leptin; Nitrogen; Oleic Acids; Rats; Rats, Zucker

To determine whether the slimming effects of treatment with oleoyl-estrone (OE) in liposomes of normal and obese rats are permanent, or disappear as soon as the treatment with the drug ceased. This study was devised to gain further knowledge on the postulated role of OE as a ponderostat signal, evaluating whether (in addition) it can lower the ponderostat setting of the rat.. The rats were infused for 14d (using osmotic minipumps) with oleoyl-estrone in liposomes at a dose of 3.5 micromol/kg x d, and were studied up to one month after the treatment ceased.. Young adult lean controls (CL) or treated (TL) and obese controls (CO) or treated (TO) Zucker rats.. Energy balance, blood glucose, liver glycogen, plasma insulin, leptin corticosterone, ACTH and estrone (free and total) concentrations, and expression of the OB gene in white adipose tissue (WAT).. The loss of body weight caused by OE was recovered quickly in the TO, which gained weight at the same rate as the CO. TL rats, however remained at the low weight attained for one month after the treatment ceased. However, no differences were observed in calculated energy expenditure (EE) between the TL and TC rats once treatment had stopped. In TL and TO rats, liver glycogen concentrations decreased to normal shortly after treatment ceased, and leptin expression and concentrations remained normal and unchanged after the end of OE treatment. In TO rats, plasma glucose, insulin and leptin were lower than in the CO. Total estrone concentrations decreased rapidly in TL rats and more slowly in the TO, and free estrone followed a similar pattern.. Continuous infusion of liposomes loaded with OE resulted in a decreased energy intake (EI), maintenance of EE and the utilization of body fat reserves in lean and obese rats alike. This process ended in obese rats as soon as the infusion ceased, so that even when the levels of free and total estrone in plasma remained high, there was a marked (and relatively fast) shift toward the basal situation, which translated into an increase in EI, maintenance of estimated EE and a marked buildup of energy stores. In lean rats, the effects of OE on leptin concentrations and OB gene expression persisted after infusion ended.

Topics: Adrenocorticotropic Hormone; Animals; Anti-Obesity Agents; Blood Glucose; Body Weight; Energy Intake; Energy Metabolism; Estrone; Female; Glycogen; Insulin; Leptin; Liposomes; Liver; Obesity; Oleic Acids; Proteins; Rats; Rats, Zucker; Urea

Oleoyl-estrone elicits powerful slimming effects on lean and obese rats, sparing protein, lowering appetite and maintaining energy expenditure. Leptin synthesis is markedly reduced by oleoyl-estrone. However, this effect is not observed in the obese Zucker fa/fa rats; these rats do not fully respond to leptin but they lose fat under oleoyl-estrone treatment.. To determine the role of leptin in the conversion of estrone to fatty-acyl estrone in white adipose tissue both in vivo in Zucker lean and obese rats, and in vitro.. Two series of experiments were performed: a) Growth and differentiation of 3T3L1 preadipocytes into adipocytes followed by incubation with tritium-labeled estrone in the medium in the presence/absence of 1 nM leptin, and estimation of the incorporation of label into estrone and estrone ester fractions of cell extracts. b) Zucker lean (Fa/?) [ZL] and obese (fa/fa) [ZO] rats were injected i.v. with carrier-free oleoyl-estrone in chylomicra-sized liposomes, then euthanized after 10 min. Free and esterified estrone were measured in blood, liver, muscle, skin, white adipose tissue (WAT), and brown adipose tissue (BAT).. In the first study, in a 72-h incubation, adipocytes took up 20-27% of the medium estrone. In the leptin(-) controls, 47% of the label in the cell fraction was in the form of estrone esters and 45% as free estrone; in the leptin(+) cells, 71% of the label was in the estrone ester fraction and 24% was free estrone. In the second study, a large part of the injected tritium-label remained in the ZO blood, with only a small part remaining in ZL. In ZL 39% of the label was found in the tissues in the form of free estrone, and in ZO only 22%; in both cases about half of it was in WAT. Plasma free estrone levels were 0.3 +/- 0.1 nM in ZL and 0.5 +/- 0.3 nM in ZO, and esterified estrone was 242 +/- 99 nM for ZL and 201 +/- 29 nM for ZO. Plasma leptin levels were 1.73 +/- 0.16 ng/ml in ZL and 61.0 +/- 1.4 ng/ml in ZO.. The presence of an infact leptin pathway is critical for the uptake and synthesis of estrone esters as well as for the plasma acyl-estrone turnover. The presented results show a direct relationship between oleoyl-estrone and leptin in the WAT. A fully functional leptin pathway is needed for the synthesis of acyl-estrone and the removal of free estrone from the bloodstream, as well as for the disposal of excess circulating oleoyl-estrone. This has a direct bearing on human and animal obesity, since estrone induces increases in fat deposition.

Topics: 3T3 Cells; Adipose Tissue; Adipose Tissue, Brown; Animals; Chromatography, High Pressure Liquid; Chromatography, Thin Layer; Estrone; Female; Leptin; Liver; Mice; Muscles; Obesity; Oleic Acids; Proteins; Radioimmunoassay; Rats; Rats, Zucker; Reference Values; Scintillation Counting; Skin

To determine the extent of glucocorticoid counter-regulatory control in the slimming action of oleoylestrone.. Control and adrenalectomized rats were subjected to a seven-day treatment with 3.5 micromol/kg/d oleoylestrone in liposomes injected i.v. continuously by implanted osmotic minipumps.. Sham-operated control and adrenalectomized lean Zucker rats.. Body weight and food intake; plasma glucose, urea, insulin, leptin and corticosterone; liver glycogen.. Treatment with oleoyl-estrone resulted in decreases in body weight and in food intake, as well as in circulating glucose, insulin and leptin. Combined adrenalectomy and oleoyl-estrone treatment resulted in a loss of almost 15% body weight in only seven days, with a severe drop in circulating glucose and insulin, almost total disappearance of plasma leptin and liver glycogen and a 3-fold rise in circulating urea. Food intake decreased sharply, which resulted in the exhaustion of energy reserves.. The results presented here, strongly support the hypothesis that glucocorticoids play an important role in the modulation of oleoyl-estrone-induced imbalance of energy intake and expenditure. The large effect of oleoyl-estrone on glucose, glycogen- and protein-derived (urea levels) energy in adrenalectomized rats, provides more evidence for the assumed protective role of glucocorticoids against the oleoyl-estrone-induced net loss of energy reserves. The results also show the powerful destabilizing effects of unchecked oleoyl-estrone on energy balance.

Topics: Adrenalectomy; Animals; Anti-Obesity Agents; Corticosterone; Eating; Energy Intake; Energy Metabolism; Estrone; Female; Insulin; Leptin; Liposomes; Oleic Acids; Proteins; Rats; Rats, Zucker; Weight Loss