Érica Guilhen Mario scite author profile

OBJECTIVE-Metabolic syndrome is characterized by the variable coexistence of obesity, hyperinsulinemia, insulin resistance, dyslipidemia, and hypertension. It is well known that angiotensin (Ang) II is importantly involved in the metabolic syndrome. However, the role of the vasodilator Ang-(1-7)/Mas axis is not known. The aim of this study was to evaluate the effect of genetic deletion of the G protein-coupled receptor, Mas, in the lipidic and glycemic metabolism in FVB/N mice. RESULTS-Despite normal body weight, Mas-knockout (Mas-KO) mice presented dyslipidemia, increased levels of insulin and leptin, and an ϳ50% increase in abdominal fat mass. In addition, Mas gene-deleted mice presented glucose intolerance and reduced insulin sensitivity as well as a decrease in insulin-stimulated glucose uptake by adipocytes and decreased GLUT4 in adipose tissue. Mas Ϫ/Ϫ presented increased muscle triglycerides, while liver triglyceride levels were normal. Expression of TGF-␤ and AGT genes was higher in Mas-KO animals in comparison with controls. RESEARCH DESIGN AND METHODS-Plasma CONCLUSIONS-These results show that

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Improved Lipid and Glucose Metabolism in Transgenic Rats With Increased Circulating Angiotensin-(1-7)

Santos

Braga

Mario

et al. 2010

ATVB

150

126

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Objective-Obesity and diabetes remain among the world's most pervasive health problems. Although the importance of angiotensin II for metabolic regulation is well documented, the role of the angiotensin-(1-7)/Mas axis in this process is poorly understood. The aim of this study was to evaluate the effect of increased angiotensin-(1-7) plasma levels in lipid and glucose metabolism using transgenic rats that express an angiotensin-(1-7)-releasing fusion protein, TGR(A1-7)3292 (TGR). Methods and Results-The increased angiotensin-(1-7) levels in TGR induced enhanced glucose tolerance, insulin sensitivity, and insulin-stimulated glucose uptake. In addition, TGR presented decreased triglycerides and cholesterol levels, as well as a significant decrease in abdominal fat mass, despite normal food intake. These alterations were accompanied by a marked decrease of angiotensinogen expression and increased Akt in adipose tissue. Furthermore, augmented plasma levels and expression in adipose tissue was observed for adiponectin. Accordingly, angiotensin-(1-7) stimulation increased adiponectin production by primary adipocyte culture, which was blocked by the Mas antagonist A779. Circulating insulin and muscle glycogen content were not altered in TGR. Conclusion-These

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Angiotensin-(1–7) Mas-receptor deficiency decreases peroxisome proliferator-activated receptor gamma expression in adipocytes

et al. 2012

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The renin-angiotensin system is an important link between metabolic syndrome and cardiovascular diseases. Besides angiotensin II, other angiotensin peptides such as angiotensin-(1-7), have important biological activities. It has been demonstrated that angiotensin-(1-7), acting through the G protein-coupled receptor encoded by the Mas protooncogene have important actions on the cardiovascular system. However, the role of angiotensin-(1-7)-Mas axis in lipidic profile is not well established. In the present study, the adipocyte metabolism was investigated in wild type and FVB/N Mas-deficient male mice. The gene expression of peroxisome proliferator-activated receptor gamma, acetyl-CoA carboxylase and the amount of fatty acid synthase protein were reduced in the Mas-knockout mice. Serum nonesterified fatty acids of Mas-knockout showed a 50% increase in relation to wild type group. Basal and isoproterenol-stimulated lipolysis was similar between the groups, however, a significant decrease of the glycerol release (lipolytic index) in response to insulin was observed in wild type animals, while no effect of the insulin action was observed in a Mas-knockout group. The data suggest that the lack of angiotensin-(1-7) action through Mas receptor alters the response of adipocytes to insulin action. These effects might be related to decreased expression of PPARγ.

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High-Carbohydrate Diet Selectively Induces Tumor Necrosis Factor-α Production in Mice Liver

et al. 2010

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Obesity may represent a state of chronic low-grade inflammation associated with infiltration of adipose tissue by inflammatory cells. Tumor necrosis factor-α (TNF-α) and monocyte chemoattractant protein-1 (MCP-1/JE), two important inflammatory cytokines, have been shown to be regulated according to changes in body adiposity. In this study on Swiss mice, we compared the influences of long-term high-carbohydrate (HC) or high-fat (HF) diet on adiposity, glucose tolerance, and secretion of TNF-α and MCP-1/JE by adipose tissue and liver. For 8 weeks, male Swiss mice (7-8 weeks) were fed either standard laboratory rodent diet (control group), HC diet (64% carbohydrate, 19% protein, and 11% fat), or HF diet (45% carbohydrate, 17% protein, and 38% fat), with the latter two diets having no fiber. Oral glucose tolerance test, triacylglycerol (TAG) plasma concentration, and systemic or tissue levels of the two proinflammatory cytokines were determined. Body weight increased by approximately 20% in mice fed the experimental diets compared with mice fed the control diet. Systemically, the hypercaloric diets induced hyperglycemia with impairment in glucose tolerance, elevated circulating TAG levels, and increased plasma concentrations of TNF-α and MCP-1/JE. In the target organs (adipose tissue and liver), both diets increased MCP-1/JE levels. However, the HC diet, but not the HF diet, was able to increase TNF-α concentration in the liver. These results have shown that the nature of nutrients influences the type of proinflammatory cytokines in target organs and may contribute to the comorbidities of obesity.

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