Cinnamaldehyde supplementation acts as an insulin mimetic compound improving glucose metabolism during adolescence, but not during adulthood, in healthy male rats.

PURPOSE: Adolescence is a critical period of increased vulnerability to nutritional modifications, and adolescents may respond differently from adults to dietary intake and nutraceuticals. Cinnamaldehyde, a major bioactive compound of cinnamon, improves energy metabolism, as has been shown in studies conducted primarily in adult animals. We hypothesized that cinnamaldehyde treatment may have a higher impact on the glycemic homeostasis of healthy adolescent rats than on healthy adult rats. METHODS: Male adolescent (30 days) or adult (90 days) Wistar rats received cinnamaldehyde (40 mg/kg) for 28 days by gavage. The oral glucose tolerance test (OGTT), liver glycogen content, serum insulin concentration, serum lipid profile, and hepatic insulin signaling marker expression were evaluated. RESULTS: Cinnamaldehyde-treated adolescent rats showed less weight gain (P = 0.041), improved OGTT (P = 0.004), increased expression of phosphorylated IRS-1 (P = 0.015), and a trend to increase phosphorylated IRS-1 (P = 0.063) in the liver of adolescent rats in the basal state. None of these parameters was modified after treatment with cinnamaldehyde in the adult group. Cumulative food intake, visceral adiposity, liver weight, serum insulin, serum lipid profile, hepatic glycogen content, and liver protein expression of IRß, phosphorylated IRß, AKT, phosphorylated AKT, and PTP-1B in the basal state were similar between both age groups. CONCLUSION: In a healthy metabolic condition, cinnamaldehyde supplementation affects glycemic metabolism in adolescent rats while promoting no changes in adult rats.

Aerobic Training Associated with Arginine Supplementation Reduces Collagen-Induced Platelet Hyperaggregability in Rats under High Risk to Develop Metabolic Syndrome.

BACKGROUND: Increased platelet response is seen in individuals with metabolic syndrome. Previous reports have shown that arginine supplementation and aerobic exercise training enhance vascular nitric oxide (NO) activity and inhibit platelet hyperaggregability; however, the effects of their association remain unknown. AIM: To investigate whether arginine supplementation and aerobic exercise association may exert beneficial effects, reducing platelet hyperaggregability in rats under high risk to develop metabolic syndrome. METHODS: Wistar rats were divided into two groups: control (C) and fructose (F - water with 10% of fructose). After two weeks, the F group was subdivided into four groups: F, the same as before; fructose + arginine (FA - 880 mg/kg/day of L-arginine by gavage); fructose + training (FT); and fructose + arginine + training (FTA). Treatment lasted for eight weeks. RESULTS: The fructose administration was able to increase the collagen-induced platelet aggregation (27.4 ± 2.7%) when compared to the C group (8.0 ± 3.4%). Although the arginine supplementation (32.2 ± 6.3%) or aerobic training (23.8 ± 6.5%) did not promote any change in platelet collagen-induced hyperaggregability, the association of arginine supplementation and aerobic exercise promoted an inhibition of the platelet hyperaggregability induced by fructose administration (13.9 ± 4.4%) (P < 0.05). These effects were not observed when ADP was employed as an agonist. In addition, arginine supplementation associated with aerobic exercise promoted a decrease in interleukin-6 (IL-6) and interleukin-8 (IL-8) serum levels when compared to the fructose group, demonstrating an anti-inflammatory effect. CONCLUSIONS: Our data indicate an important role of arginine supplementation associated with aerobic exercise, reducing platelet hyperaggregability and inflammatory biomarker levels in rats under high risk to develop metabolic syndrome.

Arginine and aerobic training prevent endothelial and metabolic alterations in rats at high risk for the development of the metabolic syndrome.

Endothelial function is a key mechanism in the development of CVD. Arginine and exercise are important non-pharmacological strategies for mitigating the impact of metabolic changes in the metabolic syndrome, but the effect of their combined administration is unknown. Thus, the aim of this study was to investigate the isolated and combined effects of aerobic training and arginine supplementation on metabolic variables and vascular reactivity in rats at high risk for developing the metabolic syndrome. Wistar rats were divided into two groups: control and fructose (F - water with 10 % fructose). After 2 weeks, the F group was divided into four groups: F, fructose+arginine (FA, 880 mg/kg per d of l-arginine), fructose+training (FT) and fructose+arginine+training (FTA); treatments lasted for 8 weeks, and no difference was observed in body mass gain. Arginine did not improve the body protein content, and both the FA and FT groups show a reversal of the increase in adipose tissue. Insulin increase was prevented by training and arginine, without additive effect, and the increase in serum TAG was prevented only by training. The F group showed impaired endothelium-dependent vasodilation and hyperreactivity to phenylephrine, but arginine and training were capable of preventing these effects, even separately. Higher nitric oxide level was observed in the FA and FT groups, and no potentiating effect was detected. Thus, only training was able to prevent the increase in TAG and improve the protein mass, and training and arginine exert similar effects on fat content, insulin and endothelial function, but these effects are not additive.

Aerobic training prevents oxidative profile and improves nitric oxide and vascular reactivity in rats with cardiometabolic alteration.

Cardiovascular disease is the major cause of death worldwide; therefore it is important to understand the natural history of the pathophysiologic process and develop strategies to halt its progression. Thus this study investigated the protective effect of aerobic training on pathophysiological mechanisms involved in subclinical cardiometabolic alterations in a model with constant exposure to a prejudicial agent. Male Wistar rats were divided into a control group (C), which received drinking water, fructose group (F), which was fed 10% fructose in drinking water for 10 wk, and control training (CT) and fructose training groups (FT), in which moderate aerobic training was added in the last 8 wk of the study. Insulin, triacylglycerol, and isoprostane were higher and superoxide dismutase (SOD) was lower in the F group. There was no difference in thoracic aorta histology, but a decreased vascularization was seen in the F group, avoided by training in left ventricle. Regarding vascular function, the F group exhibited increased vasoconstrictory reactivity to phenylephrine. The F group presented impaired vasodilation to acetylcholine. Regarding endothelial nitric oxide synthase (eNOS), the F group presented a lower expression, and phosphorylated eNOS was higher in the trained groups than in their respective control groups. This same pattern was observed for nitric oxide bioavailability, antioxidant protein expression in aorta, left ventricle, and muscle (catalase, SOD, and glutathione peroxidase), serum SOD activity, and muscle mass. These results suggest that exercise training enhanced the antioxidant pathway and, as a consequence, the eNOS pathway, preventing an impairment in vascular vasodilatory capacity.

Association between serum ferritin and lipid peroxidation in hemodialysis patients.

INTRODUCTION: Iron supplementation is one of the recommendations found in patients with chronic kidney disease (CKD), however, an overload of this mineral can contribute to oxidative stress, a condition closely related to the cardiovascular risk in these patients, as well as disease progression. OBJECTIVE: The objective of this study was to investigate whether ferritin levels are associated with oxidative stress marker MDA in patients on hemodialysis (HD). METHODS: Twenty HD patients (55.0 ± 15.2 years, time of dialysis 76.5 ± 46.3 months, BMI 23.6 ± 3.0 kg/m2) were compared with 11 healthy subjects (50.9 ± 8.0 years, BMI 23.8 ± 1.9 kg/m2). Malondialdehyde (MDA) was measured by reaction with thiobarbituric acid and routine biochemical data were obtained from medical records. RESULTS: MDA levels were significantly higher in HD patients compared to the control group (13.2 ± 5.3 nmol/mL vs. 5.1 ± 2.7nmol/mL, p < 0.01). Twelve patients (60%) had ferritin values greater than the 500 ng/mL and there was a positive correlation between ferritin and MDA in HD (r = 0.66, p = 0.005, n = 17) patients. CONCLUSION: The excess iron stores in HD patients results in increased lipid peroxidation, and consequently contributes to increased oxidative stress in these patients.

Associação entre níveis de ferritina e peroxidação lipídica em pacientes em hemodiálise / Association between serum ferritin and lipid peroxidation in hemodialysis patients

Resumo Introdução: A suplementação de ferro é uma das importantes recomendações em pacientes com doença renal crônica (DRC), contudo, uma sobrecarga desse mineral pode contribuir para o estresse oxidativo, condição essa bastante relacionada com o risco cardiovascular nesses pacientes. Objetivo: O objetivo desse trabalho foi investigar se os níveis de ferritina estão associados ao estresse oxidativo avaliado pelo malondialdeído (MDA) em pacientes em hemodiálise (HD). Métodos: Vinte pacientes em tratamento de HD (55,0 ± 15,2 anos, tempo de diálise de 76,5 ± 46,3 meses, IMC 23,6 ± 3,0 kg/m2) foram comparados com 11 indivíduos saudáveis (50,9 ± 8,0 anos, IMC 23,8 ± 1,9 kg/m2). O nível de MDA foi medido pela reação com o ácido tiobarbitúrico e os dados bioquímicos de rotina foram obtidos por meio do prontuário médico. Resultados: Os pacientes em HD apresentaram elevados níveis de MDA (13,2 ± 5,3 nmol/mL) quando comparados aos indivíduos saudáveis (5,1 ± 2,7 nmol/mL; p < 0,01). Doze pacientes (60%) apresentaram valores de ferritina superiores a 500 ng/mL e houve correlação positiva entre ferritina e MDA nos pacientes HD (r = 0,66; p = 0,005; n = 17). Conclusão: O excesso dos estoques de ferro em pacientes em HD resulta em um aumento da peroxidação lipídica e, consequentemente, contribui para um maior estresse oxidativo nesses pacientes. .

Abstract Introduction: Iron supplementation is one of the recommendations found in patients with chronic kidney disease (CKD), however, an overload of this mineral can contribute to oxidative stress, a condition closely related to the cardiovascular risk in these patients, as well as disease progression. Objective: The objective of this study was to investigate whether ferritin levels are associated with oxidative stress marker MDA in patients on hemodialysis (HD). Methods: Twenty HD patients (55.0 ± 15.2 years, time of dialysis 76.5 ± 46.3 months, BMI 23.6 ± 3.0 kg/m2) were compared with 11 healthy subjects (50.9 ± 8.0 years, BMI 23.8 ± 1.9 kg/m2). Malondialdehyde (MDA) was measured by reaction with thiobarbituric acid and routine biochemical data were obtained from medical records. Results: MDA levels were significantly higher in HD patients compared to the control group (13.2 ± 5.3 nmol/mL vs. 5.1 ± 2.7nmol/mL, p < 0.01). Twelve patients (60%) had ferritin values greater than the 500 ng/mL and there was a positive correlation between ferritin and MDA in HD (r = 0.66, p = 0.005, n = 17) patients. Conclusion: The excess iron stores in HD patients results in increased lipid peroxidation, and consequently contributes to increased oxidative stress in these patients. .

eNOS gene haplotype is indirectly associated with the recovery of cardiovascular autonomic modulation from exercise.

Polymorphisms in the endothelial nitric oxide synthase (eNOS) gene decrease expression and activation of eNOS in vitro, which is associated with lower post-exercise increase in vasodilator reactivity in vivo. However, it is unknown whether such polymorphisms are associated with other eNOS-related phenotypes during recovery from exercise. Therefore, we investigated the impact of an eNOS haplotype containing polymorphic alleles at loci -786 and 894 on the recovery of cardiovascular autonomic function from exercise. Sedentary, non-obese, healthy subjects were enrolled [n = 107, age 32 ± 1 years (mean ± SEM)]. Resting autonomic modulation (heart rate variability, systolic blood pressure variability, and spontaneous baroreflex sensitivity) and vascular reactivity (forearm hyperemic response post-ischemia) were assessed at baseline, 10, 60, and 120 min after a maximal cardiopulmonary exercise test. Besides, autonomic function was assessed by heart rate recovery (HRR) immediately after peak exercise. Haplotype analysis showed that vagal modulation (i.e., HF n.u.) was significantly higher, combined sympathetic and vagal modulation (i.e., LF/HF) was significantly lower and total blood pressure variability was significantly lower post-exercise in a haplotype containing polymorphic alleles (H2) compared to a haplotype with wild type alleles (H1). HRR was similar between groups. Corroborating previous evidence, H2 had significantly lower post-exercise increase in vasodilator reactivity than H1. In conclusion, a haplotype containing polymorphic alleles at loci -786 and 894 had enhanced recovery of autonomic modulation from exercise, along with unchanged HRR, and attenuated vasodilator reactivity. Then, these results suggest an autonomic compensatory response of a direct deleterious effect of eNOS polymorphisms on the vascular function.

Endothelial nitric oxide gene haplotype reduces the effect of a single bout of exercise on the vascular reactivity in healthy subjects.

Polymorphisms in the endothelial nitric oxide synthase (eNOS) gene reduce shear stress-induced nitric oxide production. Thus, we investigated the individual and combined impact of 3 variants in the eNOS gene (-786T>C, intron 4b4a, and 894G>T) on vascular reactivity before and after exercise. Sedentary, healthy subjects were studied (105 women/26 men, age 32 ± 1 years [mean ± standard error of the mean]). Genotypes were determined by polymerase chain reaction restriction fragment length polymorphism, and haplotypes were determined by a Bayesian-based algorithm. Vascular reactivity was evaluated by the percentage of change in forearm vascular conductance provoked by 5 minutes of circulatory occlusion before (baseline) and 10, 60, and 120 minutes after a maximal cardiopulmonary exercise test. Vascular reactivity increased 10 minutes after exercise in the entire sample (baseline: 218 ± 11% vs 10 minutes: 284 ± 15%, P < 0.001), remained increased at 60 minutes (239 ± 12%, P = 0.02 vs baseline), and returned to baseline at 120 minutes (210 ± 10%, P = 0.83 vs baseline). Genotype analysis showed that subjects with the 894G>T polymorphism had lower vascular reactivity than wild counterparts (group effect, P = 0.05). Furthermore, subjects with haplotype 2 (H2), containing the -786T>C and 894G>T polymorphisms, had lower vascular reactivity than wild counterparts (haplotype 1 [H1]) (group effect, P = 0.05), whereas subjects with haplotype 4 (H4), containing only the 894G>T polymorphism, had vascular reactivity similar to that of wild counterparts (H1) (group effect, P = 0.35). Altogether, these results indicate that the 894G>T polymorphism reduced exercise-mediated increase in vascular reactivity, particularly when it occurred concomitantly with the -786T>C polymorphism.

Diet and exercise training reduce blood pressure and improve autonomic modulation in women with prehypertension.

Despite mortality from heart disease has been decreasing, the decline in death in women remains lower than in men. Hypertension (HT) is a major risk factor for cardiovascular disease. Therefore, approaches to prevent or delay the onset of HT would be valuable in women. Given this background, we investigated the effect of diet and exercise training on blood pressure (BP) and autonomic modulation in women with prehypertension (PHT). Ten women with PHT (39 ± 6 years, mean ± standard deviation) and ten with normotension (NT) (35 ± 11 years) underwent diet and exercise training for 12 weeks. Autonomic modulation was assessed through heart rate (HR) and systolic BP (SBP) variability, using time and frequency domain analyses. At preintervention, women with PHT had higher SBP (PHT: 128 ± 7 vs. NT: 111 ± 6 mmHg, p < 0.05) and lower HR variability [standard deviation of normal-to-normal beats (SDNN), PHT: 41 ± 18 vs. NT: 60 ± 19 ms, p < 0.05]. At post-intervention, peak oxygen consumption and muscular strength increased (p < 0.05), while body mass index decreased in both groups (p < 0.05). However, SBP decreased (118 ± 8 mmHg, p < 0.05 vs. preintervention) and total HR variability tended to increase (total power: 1,397 ± 570 vs. 2,137 ± 1,110 ms(2), p = 0.08) only in the group with PHT; consequently, HR variability became similar between groups at post-intervention (p > 0.05). Moreover, reduction in SBP was associated with augmentation in SDNN (r = -0.46, p < 0.05) and reduction in low-frequency power [LF (n.u.); r = 0.46, p < 0.05]. In conclusion, diet and exercise training reduced SBP in women with PHT, and this was associated with augmentation in parasympathetic and probably reduction in sympathetic cardiac modulation.