High-Fat Diet-Induced Obesity Model Does Not Promote Endothelial Dysfunction via Increasing Leptin/Akt/eNOS Signaling.

Experimental studies show that the unsaturated high-fat diet-induced obesity promotes vascular alterations characterized by improving the endothelial L-arginine/Nitric Oxide (NO) pathway. Leptin seems to be involved in this process, promoting vasodilation via increasing NO bioavailability. The aim of this study was to test the hypothesis that unsaturated high-fat diet-induced obesity does not generate endothelial dysfunction via increasing the vascular leptin/Akt/eNOS signaling. Thirty-day-old male Wistar rats were randomized into two groups: control (C) and obese (Ob). Group C was fed a standard diet, while group Ob was fed an unsaturated high-fat diet for 27 weeks. Adiposity, hormonal and biochemical parameters, and systolic blood pressure were observed. Concentration response curves were performed for leptin or acetylcholine in the presence or absence of Akt and NOS inhibitor. Our results showed that an unsaturated high-fat diet promoted a greater feed efficiency (FE), elevation of body weight and body fat (BF), and an adiposity index, characterizing a model of obesity. However, comorbidities frequently associated with experimental obesity were not visualized, such as glucose intolerance, dyslipidemia and hypertension. The evaluation of the endothelium-dependent relaxation with acetylcholine showed no differences between the C and Ob rats. After NOS inhibition, the response was completely abolished in the Ob group, but not in the C group. Furthermore, Akt inhibition completely blunted vascular relaxation in the C group, but not in the Ob group, which was more sensitive to leptin-induced vascular relaxation. L-NAME incubation abolished the relaxation in both groups at the same level. Although Akt inhibitor pre-incubation reduced the leptin response, group C was more sensitive to its effect. In conclusion, the high-unsaturated fat diet-induced obesity improved the vascular reactivity to leptin and does not generate endothelial dysfunction, possibly by the increase in the vascular sensitivity to leptin and increasing NO bioavailability. Moreover, our results suggest that the increase in NO production occurs through the increase in NOS activation by leptin and is partially mediated by the Akt pathway.

Vitamin D induces increased systolic arterial pressure via vascular reactivity and mechanical properties.

BACKGROUND/AIMS: The aim of this study was to evaluate whether supplementation of high doses of cholecalciferol for two months in normotensive rats results in increased systolic arterial pressure and which are the mechanisms involved. Specifically, this study assesses the potential effect on cardiac output as well as the changes in aortic structure and functional properties. METHODS: Male Wistar rats were divided into three groups: 1) Control group (C, n = 20), with no supplementation of vitamin D, 2) VD3 (n = 19), supplemented with 3,000 IU vitamin D/kg of chow; 3) VD10 (n = 21), supplemented with 10,000 IU vitamin D/kg of chow. After two months, echocardiographic analyses, measurements of systolic arterial pressure (SAP), vascular reactivity, reactive oxygen species (ROS) generation, mechanical properties, histological analysis and metalloproteinase-2 and -9 activity were performed. RESULTS: SAP was higher in VD3 and VD10 than in C rats (p = 0.001). Echocardiographic variables were not different among groups. Responses to phenylephrine in endothelium-denuded aortas was higher in VD3 compared to the C group (p = 0.041). Vascular relaxation induced by acetylcholine (p = 0.023) and sodium nitroprusside (p = 0.005) was impaired in both supplemented groups compared to the C group and apocynin treatment reversed impaired vasodilation. Collagen volume fraction (<0.001) and MMP-2 activity (p = 0.025) was higher in VD10 group compared to the VD3 group. Elastin volume fraction was lower in VD10 than in C and yield point was lower in VD3 than in C. CONCLUSION: Our findings support the view that vitamin D supplementation increases arterial pressure in normotensive rats and this is associated with structural and functional vascular changes, modulated by NADPH oxidase, nitric oxide, and extracellular matrix components.

Alterações vasculares em ratos obesos por dieta rica em gordura: papel da Via L-arginina/NO Endotelial / Vascular alterations in high-fat diet-obese rats: role of Endothelial L-arginine/NO Pathway / Alteraciones vasculares en ratones obesos por dieta rica en grasa: papel de la vía L-arginina/NO endotelial

FUNDAMENTO: Mecanismos subjacentes a anormalidades vasculares na obesidade ainda não estão completamente esclarecidos. OBJETIVO: Foi avaliada a via do óxido nítrico/L-arginina na resposta vascular de ratos obesos por dieta rica em gordura, enfocando as células endoteliais e do músculo liso. MÉTODOS: Ratos com 30 dias de vida foram divididos em 2 grupos: controle (C) e obeso (OB, ratos sob dieta rica em gordura por 30 semanas). Após 30 semanas, foram registrados o peso corporal, índice de adiposidade, pressão arterial e perfis metabólicos e endócrinos dos animais. Foram obtidas curvas para noradrelanina na ausência e presença de inibidor de óxido nítrico sintase (L-NAME, 3x10-4M) em aorta torácica intacta e com desnudamento em ratos C e OB. RESULTADOS: As medidas de peso corporal, índice de adiposidade, leptina e insulina aumentaram nos ratos OB, enquanto a pressão arterial permaneceu inalterada. A obesidade também produziu tolerância à glicose e resistência à insulina. A reatividade à noradrenalina da aorta intacta foi similar em ratos C e OB. A presença de L-NAME produziu um aumento similar nas respostas máximas, mas um desvio maior à esquerda das respostas nas aortas intactas dos ratos C em relação aos ratos OB [EC50 (x10-7M): C = 1,84 (0,83-4,07), O = 2,49 (1,41-4,38); presença de L-NAME C = 0,02 (0,01-0,04)*, O = 0,21 (0,11-0,40)*†,*p < 0,05 vs controle respectivo,†p < 0,05 vs controle mais L-NAME, n = 6-7]. Nenhum dos protocolos alterou a reatividade à noradrenalina de aortas com desnudamento. CONCLUSÃO: A obesidade induzida por dieta rica em gordura promove alterações metabólicas e vasculares. A alteração vascular envolveu uma melhora da via endotelial L-arginina/NO provavelmente relacionada à hiperinsulinemia e hiperleptinemia induzidas por dieta. A maior resistência aos efeitos do L-NAME na aorta de ratos obesos diz respeito a menor vulnerabilidade de indivíduos obesos na presença de patologias associadas que causam danos à atividade do sistema NO.

BACKGROUND: Mechanisms underlying vascular abnormalities in obesity remain to be completely clarified. OBJECTIVE: L-arginine/nitric oxide pathway was evaluated on vascular response of high-fat diet-obese rats, focusing on endothelial and smooth muscle cells. METHODS: 30-day-old rats were divided in two groups: control (C) and obese (OB, high-fat diet for 30 weeks). After 30 weeks, body weight, adiposity index, blood pressure, and metabolic and endocrine profiles of the animals were recorded. Curves to noradrenaline were obtained in absence and presence of nitric oxide synthase inhibitor (L-NAME, 3x10-4M) on intact and denuded thoracic aorta from C and OB rats. RESULTS: Body weight, adiposity index, leptin and insulin levels were increased in OB, while blood pressure was unchanged. Obesity also produced glucose tolerance and insulin resistance. Reactivity to noradrenaline of intact aorta was similar in C and OB rats. L-NAME presence produced a similar increase in maximal responses, but a higher leftward shift of noradrenaline responses in intact aorta from C than in OB rats [EC50 (x10-7M): C = 1.84 (0.83-4.07), O = 2.49 (1.41-4.38); L-NAME presence C = 0.02 (0.01-0.04)*, O = 0.21 (0.11-0.40)*†,*p < 0.05 vs respective control, †p < 0.05 vs control plus L-NAME, n = 6-7]. None of the protocols altered the reactivity to noradrenaline of denuded aortas. CONCLUSION: High-fat diet-induced obesity promotes metabolic and vascular alterations. The vascular alteration involved an endothelial L-arginine/NO pathway improvement was probably correlated to diet-induced hyperinsulinemia and hyperleptinemia. The greater resistance to L-NAME effects in aorta of obese rats raises concerns about the lower cardiovascular vulnerability of obese individuals in the presence of associated pathologies that impair NO-system activity.

FUNDAMENTO: Los mecanismos subyacentes a las anormalidades vasculares en la obesidad todavía no están completamente aclarados. OBJETIVO: Se evaluó la vía del óxido nítrico/L-arginina en la respuesta vascular de ratones obesos por dieta rica en grasa, concentrándonos en las células endoteliales y en el músculo liso. MÉTODOS: Ratones con 30 días de vida que fueron divididos en 2 grupos: control (C) y obeso (OB, ratones bajo dieta rica en grasa durante 30 semanas). Después de 30 semanas, fueron registrados el peso corporal, el índice de adiposidad, la presión arterial y los perfiles metabólicos y endocrinos de los animales. Fueron obtenidas las curvas para noradrelanina en ausencia y en presencia del inhibidor de óxido nítrico sintasa (L-NAME, 3x10-4M), en la aorta torácica intacta y con denudación de los ratones C y OB. RESULTADOS: Las medidas de peso corporal, índice de adiposidad, leptina e insulina aumentaron en los ratones OB, mientras que la presión arterial permaneció inalterada. La obesidad también produjo una tolerancia a la glucosa y una resistencia a la insulina. La reactividad a la noradrenalina de la aorta intacta fue similar en los ratones C y OB. La presencia de L-NAME generó un aumento similar en las respuestas máximas, pero una desviación mayor a la izquierda de las respuestas en las aortas intactas de los ratones C con relación a los ratones OB [EC50 (x10-7M): C = 1,84 (0,83-4,07), O = 2,49 (1,41-4,38); presencia de L-NAME C = 0,02 (0,01-0,04)*, O = 0,21 (0,11-0,40)*†,*p < 0,05 vs control respectivo, †p < 0,05 vs control más L-NAME, n = 6-7]. Ninguno de los protocolos alteró la reactividad a la noradrenalina de las aortas con denudación. CONCLUSIÓN: La obesidad inducida por dieta rica en grasa genera alteraciones metabólicas y vasculares. La alteración vascular conllevó a una mejoría de la vía endotelial L-arginina/NO tal vez relacionada con la hiperinsulinemia e hiperleptinemia inducidas por dieta. La mayor resistencia a los efectos del L-NAME en la aorta de ratones obesos, se refiere a una menor vulnerabilidad de individuos obesos en presencia de patologías asociadas que causan daños a la actividad del sistema NO.

Vascular alterations in high-fat diet-obese rats: role of endothelial L-arginine/NO pathway.

BACKGROUND: Mechanisms underlying vascular abnormalities in obesity remain to be completely clarified. OBJECTIVE: L-arginine/nitric oxide pathway was evaluated on vascular response of high-fat diet-obese rats, focusing on endothelial and smooth muscle cells. METHODS: 30-day-old rats were divided in two groups: control (C) and obese (OB, high-fat diet for 30 weeks). After 30 weeks, body weight, adiposity index, blood pressure, and metabolic and endocrine profiles of the animals were recorded. Curves to noradrenaline were obtained in absence and presence of nitric oxide synthase inhibitor (L-NAME, 3x10-4M) on intact and denuded thoracic aorta from C and OB rats. RESULTS: Body weight, adiposity index, leptin and insulin levels were increased in OB, while blood pressure was unchanged. Obesity also produced glucose tolerance and insulin resistance. Reactivity to noradrenaline of intact aorta was similar in C and OB rats. L-NAME presence produced a similar increase in maximal responses, but a higher leftward shift of noradrenaline responses in intact aorta from C than in OB rats [EC50 (x10-7M): C = 1.84 (0.83-4.07), O = 2.49 (1.41-4.38); L-NAME presence C = 0.02 (0.01-0.04)*, O = 0.21 (0.11-0.40)**p < 0.05 vs respective control, p < 0.05 vs control plus L-NAME, n = 6-7]. None of the protocols altered the reactivity to noradrenaline of denuded aortas. CONCLUSION: High-fat diet-induced obesity promotes metabolic and vascular alterations. The vascular alteration involved an endothelial L-arginine/NO pathway improvement was probably correlated to diet-induced hyperinsulinemia and hyperleptinemia. The greater resistance to L-NAME effects in aorta of obese rats raises concerns about the lower cardiovascular vulnerability of obese individuals in the presence of associated pathologies that impair NO-system activity.