Milton Ginoza

Role of Bradykinin in Insulin Sensitivity and Blood Pressure Regulation During Hyperinsulinemia

The purpose of these experiments was to determine in normotensive rats the role of endogenous bradykinin, prostaglandins, and nitric oxide in glucose metabolism and blood pressure response to hyperinsulinemia. Normotensive Wistar rats were treated with two different bradykinin antagonists, indomethacin or N omega-nitro-L-arginine methyl ester, concurrently with a euglycemic clamp with insulin infusion rates of 3 or 6 mU/kg per minute. Glucose uptake, steady-state plasma insulin levels, and insulin sensitivity index were determined over 2 hours. Bradykinin inhibition dramatically reduced glucose uptake and insulin sensitivity index during both the lower and higher insulin infusion rates to 30% and 32%, respectively, of values observed in control rats. Inhibition of prostaglandins or nitric oxide did not alter glucose metabolism in these rats. Blood pressure remained unchanged in the control group throughout the clamp but increased significantly in rats submitted to inhibition of bradykinin, prostaglandins, or nitric oxide, suggesting that these vasodilator systems tend to counteract the hypertensive effect of hyperinsulinemia. The counterregulatory component attributable to bradykinin was about twice as great as that attributable to nitric oxide. These findings suggest that insulin infusion in normotensive Wistar rats fails to raise blood pressure because its effects are offset by mobilization of vasodilator mechanisms, such as bradykinin, prostaglandins, and nitric oxide. Bradykinin seems to play the most important homeostatic role under these conditions, because its inhibition significantly reduces insulin sensitivity and allows blood pressure to rise.

Role of Substance P in Blood Pressure Regulation in Salt-Dependent Experimental Hypertension

The participation of substance P in the pathogenesis of five models of experimental hypertension, ie, DOCA-salt, subtotal nephrectomy, one-kidney-one clip renovascular, two-kidney-one clip renovascular, and spontaneous hypertension, was evaluated via an acute infusion of a newly synthesized potent, specific nonpeptide antagonist of substance P at the NK-1 receptor, the agent CP 96,345. In conscious unrestrained rats, CP 96,345 induced significant and sustained increases in mean arterial pressure of DOCA-salt, subtotal nephrectomy, and one-kidney-one clip renovascular hypertensive rats but only small and nonsignificant changes in blood pressure of two-kidney-one clip renovascular and spontaneously hypertensive rats. CP 96,345 had no effect on the blood pressure of sham-treated controls and Wistar-Kyoto rats. This NK-1 receptor antagonist did not significantly affect the heart rate of any experimental model studied. The data suggest that endogenous substance P may act as a partial counterregulatory mechanism against vasoconstriction in models of salt-dependent hypertension.

Efeito da indução de obesidade neuroendócrina sobre a hemodinâmica sistêmica e a função ventricular esquerda de ratos normotensos

The aim of this study was to evaluate the effects of obesity induced by neonatal Monosodium Glutamate (MSG) administration upon body weight, tail blood pressure, systemic hemodynamics and left ventricular function of Wistar rats. Two groups of Wistar rats were prepared: a) 18 animals made obese through the administration of 2mg/Kg/SC of MSG during the first 11 days of the neonatal period and b)16 control animals (vehicle treated for the same period). Adults animals were followed from the 3rd up the 6th month of life with blood pressure and body weight being measured twice a week. At the end of this period, in part of animals from both groups, we evaluated the left ventricular function through the Langendorff isolated heart preparation whereas the remainders were used to evaluate the systemic hemodynamics through a termodilution method. Results: MSG animals showed significant increases in heart rate (WST = 235,0 ± 35,1; MSG = 312,0 ± 90,8 bpm), total peripheral resistance (WST = 0,312 ± 0,100; MSG = 0,535 ± 0,195 mmHg.ml-1.min) and in relative epididymal adipose tissue content (WST = 2,076 ± 0,622; MSG = 2,731 ± 0,722 g/100g) and a reduction of systolic volume (WST = 1,020 ± 0,364; MSG = 0,748 ± 0,455 ml/bat). An increase in mean arterial pressure was also detected in obese animals during the hemodynamic evaluation. The increases in HR and TPR and the reduction in SV suggest an augmentation in the sympathetic activation of those obese normotensive rats associated with an increased visceral fat deposition.

Efeito da sobreposição de um modelo de obesidade neuroendócrina experimental e hipertensão arterial sobre a pressão arterial, peso corporal e parâmetros metabólicos e renais de ratos

r esuMo Introducao: A elevacao do indice de massa corporal e a presenca de sindrome metabolica se associam com diminuicao da funcao renal e o aparecimento de doenca renal terminal. Objetivo: Avaliar o efeito da sobreposicao de um modelo de obesidade experimental e hipertensao arterial sobre a pressao arterial, peso corporal e parâmetros metabolicos e renais de ratos. Metodos: Foram estudados ratos machos das cepas Wistar e espontaneamente hipertensos (SHR). Os grupos MSG receberam glutamato monossodico no periodo neonatal (WST + MSG e SHR + MSG). Os animais controles receberam

Efeito do exercício físico e suplementação de potássio sobre a pressão arterial, metabolismo glicídico e albuminúria de ratos hipertensos

INTRODUCTION It is still controversial whether there are synergistic effects among different non-pharmacological interventions used in the treatment of hypertension. OBJECTIVES To evaluate the effect of aerobic exercise, oral supplementation of potassium and their combination on blood pressure, glucose metabolism, urinary albumin excretion and glomerular morphology in spontaneously hypertensive rats (SHR). METHODS SHR were divided into groups: Control Group (SHR; standard diet and sedentary, n = 10), Exercise Group (SHR + E; trained on a treadmill, standard diet, n = 10), Potassium Group (SHR + K; sedentary, potassium supplementation, n = 10) and Group Exercise + Potassium (SHR + E + K, exercise, potassium supplementation n = 10). Weekly, body weight (BW) and tail blood pressure (TAP) were measured. At the end of 16 weeks, a Oral Glucose Tolerance Test was performed. Albuminuria was determined in the baseline period, at 8th and at 16th week. After sacrifice, the analysis of glomerular sclerosis index and visceral fat weight was performed. RESULTS The TAP and BW did not change significantly. There was improvement in insulin sensitivity in SHR + E and SHR + K, but not in SHR + E + K. At week 16, albuminuria in all groups was significantly lower than the SHR control. The glomerular sclerosis index and visceral fat content were also significantly lower in all groups compared to control. CONCLUSION An oral supplementation of potassium and exercise led to an improvement in glucose metabolism, in albuminuria and glomerular morphology, however, the overlap of the treatments did not show synergism.

Efeitos da administração de metformina sobre a pressão arterial e o metabolismo glicídico de ratos espontaneamente hipertensos tornados obesos pela injeção neonatal de glutamato monossódico

OBJECTIVES: To make available experimental model for the metabolic syndrome (MS) and verify effects of chronic oral treatment with metformin upon blood pressure (BP), body weight (BW), glucose metabolism, epididimal fat content (EF). METHOD: Males SHR received monossodium glutamate (MSG, 2 mg/kg/day/sc) during first 11 days of life. Control animals received saline. After 12 weeks, animals were separated in two groups, treated either with metformin 500 mg/ kg/day or vehicle during 12 weeks. PA and BW were determined. At the end of the follow-up, animals underwent an oral glucose tolerance test (OGTT) and insulin sensitivity index was determined. Upon sacrifice EF was measured. RESULTS: MSG worsened insulin resistance and induced visceral obesity in SHR, without change BP. Treatment with metformin improved glucose metabolism and reduces EF and BP. CONCLUSIONS: These observations emphasize the role of hepatic insulin resistance on MS and point out for beneficial cardiovascular effects with improvement in the insulin sensitivity.

Cardiovascular Effects of a Specific Nonpeptide Antagonist of Substance P (NK-1) Receptor in DOCA-Salt Hypertension

The neurotransmitter substance P acts also as a potent vasodilator. Its participation in the pathogenesis of deoxycorticosterone acetate (DOCA)-salt hypertension was evaluated by an acute infusion of a newly synthesized, potent, specific nonpeptide antagonist of substance P at the NK-1 receptor, the agent CP 96,345. In conscious unrestrained rats, CP 96,345 induced significant and sustained increases in mean arterial pressure of DOCA-salt rats but only small, transient, and nonsignificant rises in blood pressure of sham-treated control rats. The rise in blood pressure was not accompanied by changes in heart rate. Maximal blood pressure increase in DOCA-salt rats was 31.7 +/- 14.8 mm Hg. In a second series of experiments, the hemodynamic effects of this antagonist were evaluated under anesthesia in both DOCA-salt and sham-treated control rats by the thermodilution method. During CP 96,345 infusion, sustained increases in cardiac index and stroke volume and decreases in total peripheral resistance were observed in both DOCA-salt and control rats. In DOCA-salt rats, cardiac index rose by 79.4%, while total peripheral resistance fell by 27.9% of the baseline values. In control rats, the changes were smaller (+27.2% and -22.5%, respectively). Stroke volume changed in parallel to cardiac output in both groups. The data suggest that acute blockade of NK-1 receptors increases blood pressure in DOCA-salt rats mainly by an increase in cardiac output. We conclude that endogenous substance P tends to counteract the DOCA-salt-induced elevation of blood pressure by modulating both cardiac output and peripheral resistance.

Efeito da associação entre obesidade neuroendócrina e exócrina experimental sobre a pressão arterial de cauda e o metabolismo de glicose de ratos Wistar

OBJECTIVE: To study two different models of obesity, exocrine and endocrine, and its association on tail arterial pressure (TAP), body weight (BW), glucose metabolism and visceral fat content. METHODS: Male Wistar rats were studied. The MSG group was composed by rats that received of MSG in neonatal period. At the 3rd month of life, part of these animals received cafeteria diet. Animals received saline control in the neonatal period. In the 12 weeks of study, body weight and blood pressure were measured twice a week. In the end of this period on, Oral Glucose Tolerance Test (OGTT) was performed and the Insulin Sensitivity Index (ISI) was calculated, also the left Relative Ventricular Weight (RLW) and Relative Epididimal Fat Weight (REFW) were obtained. RESULTS: No changes on BW and TAP were verified. The obesity induced by MSG and CAF, individually, let to increases on insulin resistance (WST = 23,25 ± 9,31; CAF = 15,92 ± 9,10*; MSG = 13,41 ± 3,84* mg-1mU-1, p < 0,05 vs WST) and relative epididimal fat content (WST = 6,20 ± 0,57; CAF = 8,27 ± 1,53*; MSG = 8,23 ± 1,98* g/100 g, *p < 0,05) when these rats were compared to control rats. An enhanced effect upon these parameters was observed with the association of both obesity models (MSG+CAF = 9,34 ± 5,77 mg-1mU-1, p < 0,05 vs MSG and CAF) and visceral fat content (MSG+CAF = 11,12 ± 3,85 g/100g, p < 0,05 vs MSG and CAF). CONCLUSION: The association of these two experimental models of obesity aggravates insulin resistance that probably is due at least in part to the increase of visceral fat content.

Systemic hemodynamic and left ventricular function of diabetic-induced hypertensive rats

OBJECTIVE To analyze the effects of type-1 diabetes mellitus (DM1) induction on systemic hemodynamic and ventricular function of normotensive and hypertensive rats. MATERIALS AND METHODS DM1 was induced by streptozotocin in Wistar rats (WST), borderline hypertensive rats (BHR) and spontaneously hypertensive rats (SHR). The systemic hemodynamic was evaluated by thermodilution and ventricular function by Langendorff preparation. RESULTS DM1-induction increased tail arterial pressure of WST and BHR. DM1 also increased total peripheral resistance in WST and decrease in cardiac output stroke volume in WST and BHR. Systolic function indexes were reduced and ventricular stiffness increased in all WST-diabetic rats. All of these effects were more prominent on diabetic WST rats. CONCLUSION The DM1 in rats was accompanied by important changes in both systolic and diastolic heart function leading to significant changes in the systemic hemodynamics that were not significantly enhanced by hypertension.

Assessment of fructose overload in the metabolic profile and oxidative/nitrosative stress in the kidney of senescent female rats

ABSTRACT The aging process is a complex phenomenon that leads the body to several changes, affecting its integrity and resulting in chronic pathologies, which compromises health and quality of life of elderly people. Animals supplemented with fructose have been used as an experimental model for induction of insulin resistance. The objective of this study was to evaluate the metabolic effects and the levels of oxidative/nitrosative stress in the kidney of senescent rats with a high fructose intake. The animals were allocated into 4 groups: young control (Y), aged control (A), young fructose (YF) and aged fructose (AF). Groups Y and A received water and groups YF and AF received fructose (100 g/L) in the water, both ad libitum. After 12 weeks of high fructose intake, the animals were sacrificed to collect their kidneys, blood and the thoracic aorta. The results are presented as mean ± SE, analyzed by the One‐Way ANOVA test with Newman‐Keuls post‐test; significant at p < 0.05. The fructose overload caused metabolic dysfunctions and insulin resistance, confirming the efficacy of the chosen model. In this study, we observed a body weight gain in the studied groups (except in the elderly fructose group), and an increase in general caloric intake, diuresis and adipose tissue; insulin resistance, increased fasting glucose, triglycerides and cholesterol in the fructose groups. We also found a loss of renal function, increased oxidative/nitrosative stress and inflammation, and a reduction of antioxidants and a lower vasodepressor response in the studied groups, especially those who consumed fructose. In summary, our data showed that aging or high fructose intake contributed to the increase of oxidative/nitrosative stress in animals, demonstrating that at the dose and the period of fructose treatment utilized in this study, fructose was not able to aggravate several aspects which were already altered by aging. We believe that the high fructose intake simulates most of the effects of aging, and this understanding would be useful to prevent or minimize many of the alterations caused by this condition. HighlightsAging or high fructose intake contributes to an increased oxidative/nitrosative stress, and inflammation.High fructose intake reduced vasodilatation response in young and aging female rats.High fructose intake simulates most of the effects of aging.