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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aims of this study were to determine whether chronic hyperinsulinemia, comparable to that found in obese hypertensives, elevates mean arterial pressure (MAP) or potentiates the hypertensive effects of angiotensin II (ANG II). Studies were conducted in conscious dogs with kidney mass reduced by 70% in order to increase their susceptibility to hypertensive stimuli. Insulin infusion (0.5 or 1.0 mU.kg-1.min-1 iv) for 7 days with plasma glucose held constant raised plasma insulin more than fivefold but did not increase MAP in four dogs on 138 meq/day Na intake. In seven dogs maintained on a high Na intake (319 meq/day), insulin infusion (1.0 mU.kg-1.min-1) for 28 days raised fasting insulin from 9.8 +/- 1.5 to 56-78 microU/ml but did not increase MAP, which averaged 106 +/- 2 mmHg during control and 102 +/- 2 mmHg during 28 days of insulin infusion. Insulin caused transient sodium and potassium retention followed by renal "escape" that was associated with increased glomerular filtration rate (12-27%). Plasma renin activity and plasma aldosterone were not altered by insulin. In five dogs infused with ANG II (2.0 ng.kg-1.min-1) to cause mild hypertension, insulin infusion (1.0 mU.kg-1.min-1) for 6-28 days did not increase MAP further. Thus chronic hyperinsulinemia did not elevate MAP, even when kidney mass was reduced, and did not potentiate the hypertensive effects of ANG II. These findings suggest that additional factors besides hyperinsulinemia per se are responsible for obesity-associated hypertension.
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PMID:Chronic hyperinsulinemia and blood pressure regulation. 218 Mar 21

The aim of this study was to determine whether chronic hyperinsulinemia, comparable to that found in obesity-associated hypertension, causes sustained increases in mean arterial pressure (MAP) or potentiates the hypertensive effects of angiotensin II (ANG II). Insulin infusion (0.5 or 1.0 mU/kg/min, IV), with plasma glucose held constant by IV glucose infusion, for seven to 28 days raised plasma insulin by five- to ten-fold, but did not significantly change MAP in dogs with reduced kidney mass that were maintained on high sodium intake. In dogs infused with ANG II to cause mild hypertension, insulin for 28 days did not potentiate the hypertension. Insulin infusion did, however, cause modest sodium retention during the first few days of infusion. These findings suggest that additional factors besides hyperinsulinemia per se are responsible for obesity-associated hypertension.
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PMID:Does chronic hyperinsulinemia cause hypertension? 292 97

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.
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PMID:Angiotensinogen gene expression in adipose tissue: analysis of obese models and hormonal and nutritional control. 924 55

Acute administration of the angiotensin-converting enzyme (ACE) inhibitor captopril enhances insulin-stimulated glucose transport activity in skeletal muscle of the insulin-resistant obese Zucker rat. The present study was designed to assess whether this effect is mediated by an increase in the nonapeptide bradykinin (BK), by a decrease in action of ANG II, or both. Obese Zucker rats (8-9 wk old) were treated for 2 h with either captopril (50 mg/kg orally), bradykinin (200 micrograms/kg ip), or the ANG II receptor (AT(1) subtype) antagonist eprosartan (20 mg/kg orally). Captopril treatment enhanced in vitro insulin-stimulated (2 mU/ml) 2-deoxyglucose uptake in the epitrochlearis muscle by 22% (251 +/- 7 vs. 205 +/- 9 pmol. mg(-1). 20 min(-1); P < 0.05), whereas BK treatment enhanced this variable by 18% (249 +/- 15 vs. 215 +/- 7 pmol. mg(-1). 20 min(-1); P < 0.05). Eprosartan did not significantly modify insulin action. The BK-mediated increase in insulin action was completely abolished by pretreatment with either the specific BK-B(2) receptor antagonist HOE 140 (200 micrograms/kg ip) or the nitric oxide synthase inhibitor N(omega)-nitro-L-arginine methyl ester (50 mg/kg ip). Collectively, these results indicate that the modulation of insulin action by BK likely underlies the metabolic effects of ACE inhibitors in the insulin-resistant obese Zucker rat. Moreover, this modulation of insulin action by BK is likely mediated through B(2) receptors and by an increase in nitric oxide production and/or action in skeletal muscle tissue.
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PMID:ACE inhibition and glucose transport in insulinresistant muscle: roles of bradykinin and nitric oxide. 1040 90

The pathogenic role of angiotensin II (ANG II), dietary sodium chloride, sympathetic activation, obesity and aldosterone in the development of structural vascular changes (SVCs) in hypertension is considered from three perspectives (criteria): their utility in predicting hypertension and its complications (predictability); the effect of their inhibition or removal on the reversal of SVCs (reversibility); and their ability to induce SVCs in experimental animals (reproducibility). Only ANG II meets all three criteria. Importantly, ANG II increases preglomerular vascular resistance by inducing structural changes in renal cortical resistance arteries and arterioles. High salt intake, by dilating and thereby stiffening some arteries, may play a role in the development of systolic hypertension with aging, but does not produce structural changes in renal cortical resistance vessels. While high circulating levels of norepinephrine are associated with SVCs, the experimental evidence for the role of sympathetic nerve stimulation in the development of SVCs is inconclusive. Obesity is associated with hypertension, but is not known to be associated with SVCs. Salt-loading is required for aldosterone to produce SVCs, but vascular pathology in this experimental model differs from that in benign essential hypertension. The findings of this review indicate that SVCs in extra-renal sites by themselves do not lead to hypertension; structural changes in renal cortical arteries and arterioles that increase preglomerular vascular resistance are needed. Progressive trophic stimulation of preglomerular resistance vessels by itself may lead to hypertension. ANG II is prime candidate for such stimulus.
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PMID:Pathogenesis of structural vascular changes in hypertension. 1516 59

Mice harboring 1, 2, or 3 copies of the angiotensin-converting enzyme (ACE) gene were used to evaluate the quantitative role of the ACE locus on obesity. Three-copy mice fed with a high-fat diet had lower body weight and peri-epididymal adipose tissue than did 1- and 2-copy mice (P < 0.05). On regular diet, 3-copy mice had to eat more to maintain the same body weight; on a high-fat diet, they ate the same but weighed less than 1- and 2-copy mice (P < 0.05), indicating a higher metabolic rate in 3-copy mice that was not affected by ANG II AT(1) blocker treatment. A catalytically inactive form of thimet oligopeptidase (EC 3.4.24.15; EP24.15) was used to isolate ACE substrates from adipose tissue. Liquid chromatography electrospray ionization tandem mass spectrometry (LC-ESI-MS/MS) identified 162 peptide peaks; 16 peptides were present in both groups (1- and 3-copy mice fed with a high-fat diet), whereas 58 of the 72 unique peptides were found only in the 3-copy mice. Peptide size distribution was shifted to lower molecular weight in 3-copy mice. Two of the identified peptides, LVVYPWTQRY and VVYPWTQRY, which are ACE substrates, inhibited in vitro protein kinase C phosphorylation in a concentration-dependent manner. In addition, neurolysin (EC 3.4.24.16; EP24.16) activity was lower in fat tissue from 3- vs. 1-copy mice (P < 0.05). Taken together, these results provide evidence that ACE is associated with body weight and peri-epididymal fat accumulation. This response may involve the generation of oligopeptides that inhibit the activity of EP24.16 and other oligopeptidases within the adipose tissue.
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PMID:ACE gene titration in mice uncovers a new mechanism for ACE on the control of body weight. 1552 49

Increased renal sodium retention is considered a major risk factor contributing to hypertension associated with chronic hyperinsulinemia and obesity. However, the molecular mechanism involved is not understood. The present study investigates the effect of insulin treatment on AT1 receptor expression and ANG II-induced stimulation of Na/H exchanger (NHE) and Na-K-ATPase (NKA) in opossum kidney (OK) cells, a proximal tubule cell line. The presence of the AT1 receptors in OK cells was confirmed by the specific binding of 125I-sar-ANG II and by detecting approximately 43-kDa protein on Western blot analysis with AT1 receptor antibody and blocking peptide as well as by expression of AT1 receptor mRNA as determined by RT-PCR. Insulin treatment (100 nM for 24 h) caused an increase in 125I-sar-ANG II binding, AT1 receptor protein content, and mRNA levels. The whole cell lysate and membrane showed similar insulin-induced increase in the AT1 receptor protein expression, which was blocked by genistein (100 nM), a tyrosine kinase inhibitor, and cycloheximide (1.5 microg/ml), a protein synthesis inhibitor. Determination of ethyl isopropyl amiloride-sensitive 22Na+ uptake, a measure of the NHE activity, revealed that ANG II (1-100 pM)-induced stimulation of NHE in insulin-treated cells was significantly greater than in the control cells. Similarly, ANG II (1-100 pM)-induced stimulation of ouabain-sensitive 86Rb+ uptake, a measure of NKA activity in insulin-treated cells, was significantly greater than in the control cells. ANG II stimulation of both the transporters was blocked by AT1 receptor antagonist losartan, suggesting the involvement of AT1 receptors. Thus chronic insulin treatment causes upregulation of AT1 receptors, which evoked ANG II-induced stimulation of NHE and NKA. We propose that insulin-induced increase in the renal AT1 receptor function serves as a mechanism responsible for the increased renal sodium reabsorption and thus may contribute to development of hypertension in conditions associated with hyperinsulinemia.
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PMID:Insulin treatment enhances AT1 receptor function in OK cells. 1571 8

Diabetic nephropathy characterized by proteinuria and sclerosis is the leading cause of renal failure, but its mechanisms are not well understood. Zucker Obese (ZO) rat model of obesity, insulin resistance, and hypertension has been used to study nephropathy. We hypothesize that chronically elevated intrarenal angiotensin II (ANG II) down-regulates nephrin, a key slit-pore protein and up-regulates fibrogenic molecule transforming growth factor (TGFbeta1) and thus result in progression of nephropathy in type 2 diabetes. Untreated or angiotensin converting enzyme (ACE) inhibitor, captopril, treated ZO and control Lean (ZL) rats were used to measure intrarenal levels of ANG II, glomerular nephrin, TGFbeta1, collagen and fibronectin with age using radioimmunoassay, RT-PCR and immunoblot techniques. Progression of nephropathy was established by measuring proteinuria and sclerosis. ZO rats developed obesity, hyperglycemia, hyperinsulinimia, increase in intrarenal ANG II and proteinuria. Expression of glomerular nephrin decreased while expression of TGFbeta1 and matrix components increased in ZO rats. Captopril treatment prevented increase in intrarenal ANG II, and reversed expression of nephrin, TGFbeta1, collagen and fibronectin. We conclude that in this model of type 2 diabetic nephropathy, chronically elevated intrarenal ANG II causes proteinuria via decrease in nephrin and glomerulosclerosis via TGFbeta1 mediated increase in matrix component.
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PMID:Chronically increased intrarenal angiotensin II causes nephropathy in an animal model of type 2 diabetes. 1614 87

In the present study, we tested the hypothesis that ANG II causes a greater vasoconstriction in obese Zucker rats, a model of type 2 diabetes, with mild hypertension. Measurement of isometric tension in isolated aortic rings with intact endothelium revealed a modest but not significantly greater ANG II-induced contraction in obese than lean rats. Removal of endothelium or inhibition of nitric oxide (NO) synthase by N(G)-nitro-L-arginine methyl ester (L-NAME) enhanced 1) ANG II-induced contraction in both lean and obese rats, being significantly greater in obese rats (E(max) g/g tissue, denuded: lean 572 +/- 40 vs. obese 664 +/- 16; L-NAME: lean 535 +/- 14 vs. obese 818 +/- 23) and 2) ANG II sensitivity in obese compared with lean rats, as revealed by the pD(2) values. Endothelin-1 and KCl elicited similar contractions in the aortic rings of lean and obese rats. ACh, a NO-dependent relaxing hormone, produced greater relaxation in the aortic rings of obese than lean rats, whereas sodium nitroprusside, an NO donor, elicited similar relaxations in both rat strains. The expression of the ANG type 1 (AT(1)) receptor protein and mRNA in the endothelium-intact aorta was significantly greater in obese than lean rats, whereas the endothelium-denuded rings expressed modest but not significantly greater levels of AT(1) receptors in obese than lean rats. The endothelial NO synthase protein and mRNA expression levels were higher in the aorta of obese than lean animals. We conclude that, although ANG II produces greater vasoconstriction in obese rat aortic rings, enhanced endothelial AT(1) receptor-mediated NO production appears to counteract the increased ANG II-induced vasoconstriction, suggesting that arterial AT(1) receptor may not be a contributing factor to hypertension in this model of obesity.
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PMID:Enhanced AT1 receptor-mediated vasocontractile response to ANG II in endothelium-denuded aorta of obese Zucker rats. 1714 45

Obesity is a major health problem worldwide; it is associated with more than 30 medical conditions and is a leading cause of unnecessary deaths. Adipose tissue not only acts as an energy store, but also behaves like an endocrine organ, synthesising and secreting numerous hormones and cytokines. Angiotensin II (ANG II) is the biologically active component of the renin-angiotensin system (RAS). The RAS is present in adipose tissue and evidence suggests that ANG II is intimately linked to obesity. Indeed, ANG II increases fat cell growth and differentiation, increases synthesis, uptake and storage of fatty acids and triglycerides and possibly inhibits lipolysis. Evidence obtained using genetically modified animals has shown that the amount of body fat is directly related to the amount of ANG II, i.e., animals with low levels of ANG II have reduced fat stores while animals with excessive ANG II have increased fat stores. In humans, epidemiological evidence has shown that body fat is correlated with angiotensinogen, a precursor of ANG II, or other components of the RAS. Furthermore, blocking the production and/or actions of ANG II with drugs or natural substances decreases body fat. The decrease in body fat caused by such treatments predominantly occurs in abdominal fat depots and appears to be independent of energy intake and digestibility. Clearly, ANG II has an important role in the accumulation of body fat and the possibility exists that treatment of obesity will be enhanced by the use of natural or synthetic substances that interfere with ANG II.
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PMID:The problem of obesity: is there a role for antagonists of the renin-angiotensin system? 1739 33


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