Selenium Status in Patients with Turner Syndrome: a Biochemical Assessment Related with Body Composition.

Studies about selenium status in patients with Turner syndrome (TS) are non-existent in the literature. The aim of this study was to evaluate selenium status in patients with TS, while considering the different ages of the studied population and the relation with body composition. In total, 33 patients with TS were evaluated and grouped according to their developmental stages (children, adolescents, and adults). Selenium concentrations in their plasma, erythrocytes, urine, and nails were determined by using hydride generation atomic absorption spectrometry and erythrocyte glutathione peroxidase activity were measured by using Randox commercial kits. Additionally, height, weight, body fat percentage, waist circumference, and waist-height ratio were measured to characterize the patients. No differences in the selenium concentrations in the plasma, erythrocyte, urine, and nails or in the glutathione peroxidase activity were observed among the age groups (p > 0.05). The evaluated selenium levels were less than the established normal ones. The patients with larger waist circumference, body fat percentage, body mass index, and waist-height ratio showed lower glutathione peroxidase enzyme activity (p = 0.023). The present study shows that most patients with TS are deficient in selenium and that those with a greater accumulation of body fat have a lower GPx activity.

Efeito da suplementação crônica de leucina nas vias de sinalização da síntese e degradação proteica no tecido muscular de ratos destreinados submetidos à restrição calórica / Effect of chronic supplementation of leucine in signaling pathways of protein synthesis and degradation in muscle tissue of detrained rats subjected to caloric restriction

INTRODUÇÃO: O destreinamento físico está relacionado com alterações moleculares associadas à perda de massa muscular, rápido acréscimo da massa adiposa, ganho de peso e resistência à insulina. Estudos apontam que a restrição calórica reduz a gordura corporal, contudo, associada com a inatividade física, altera o metabolismo proteico acelerando o catabolismo muscular. Nesse sentido, estudos com suplementação de aminoácidos essenciais, em especial a leucina, observam aumento na síntese proteica e redução da degradação proteica em situações de restrição ou recuperação nutricional. Dessa forma sugere-se que a restrição calórica associada à suplementação com leucina poderia atenuar os efeitos desencadeados pelo destreinamento físico. OBJETIVO: Investigar a influência da suplementação crônica de leucina na via de sinalização da síntese proteica e degradação proteica no tecido muscular a partir de parâmetros moleculares em ratos destreinados, submetidos à restrição calórica. MÉTODOS: Foram utilizados 64 ratos Sprague-Dawley machos e adultos, inicialmente distribuídos em 2 grupos: Controle (CON) (n = 16) representados pelos animais sedentários, e Treinamento (TREIN) (n = 48) que foram submetidos ao treinamento em esteira ergométrica durante oito semanas. Após esse período, os animais foram redistribuído em 6 grupos: Sedentário (SED), Treinamento (TREIN), Destreinamento (DT), Destreinamento + Leucina (LEU), Destreinamento + Restrição Calórica (DTRC) e Destreinamento + Restrição Calórica + Leucina (DTRC + LEU). Foram analisados massa corporal, consumo da ração, composição corporal, sensibilidade a insulina bem como os marcadores de inflamação (IL-6; IL-10; MCP-1; TNF-α; 1L-1α; PAI-1; leptina; adponectina) e parâmetros moleculares como genes e proteínas envolvidas na via de sinalização da síntese protéica (mTOR, P-4EBP1, P-s6K1 e eIF4E); degradação proteica (MAFBx e MURF) além de transportadores de aminoácidos (LAT-1 e SNAT 2 e CD98). ESTATÍSTICA: Os valores foram expressos em média e desvio padrão. As comparações entre os grupos após o período de destreinamento físico foram avaliadas por meio de análise de variância (ANOVA), seguida do teste de Tukey. Em todas as análises foi considerado nível de significância de 5%. A análise estatística foi realizada no software SPSS versão 17.0. RESULTADOS: Em relação à composição corporal, foi observada diferença estatisticamente significativa na gordura corporal e massa livre de gordura entre os grupos DTRC e DTRC+LEU, em relação aos demais grupos experimentais. Porém não houve diferença estatística entre o DTRC e DTRC+LEU. No entanto não foi observada diferença estatisticamente significativa quando avaliado a proteína da carcaça. Em relação aos parâmetros moleculares, não foi observada diferença estatisticamente significativa entre os grupos, quando avaliada a expressão de proteínas relacionadas com a via de sinalização de síntese proteica (mTOR, P-4EBP1, P-s6K1 e eIF4E) e transportadores de leucina (LAT- 1;SNAT-2;CD(98). Quanto avaliada a expressão gênica da via de degradação, foi observada uma menor expressão do gene MURF quando suplementado com leucina, porém sem diferença estatisticamente significativa. CONCLUSÃO: A restrição calórica associada com a suplementação com leucina foi efetiva na redução da gordura corporal, e aumento da massa livre de gordura, porém não houve diferença estatisticamente significante entre os dois grupos DTRC e DTRC+LEU, tampouco quando avaliada a proteína da carcaça desses animais. Dessa forma, pode-se concluir que a suplementação crônica com leucina não reverteu os efeitos desencadeados pelo destreinamento físico, e, além disso, não foi suficiente para alterar os parâmetros moleculares envolvidos na via de sinalização de síntese e degradação proteica desses animais

INTRODUCTION: Physical detraining is related to molecular changes associated with loss of muscle mass, rapid increase in fat mass, weight gain and insulin resistance. Studies show that caloric restriction reduces body fat; however, associated with physical inactivity, it alters protein metabolism accelerating muscle catabolism. Accordingly, studies with supplementation of essential amino acids, particularly leucine, observed increase in protein synthesis and reduced protein degradation in situation of nutritional restriction or recovery. Thus, it is suggested that caloric restriction associated with leucine supplementation could attenuate the effects triggered by physical detraining. OBJECTIVE: To investigate the influence of chronic leucine supplementation in the signaling pathway of protein synthesis and degradation in muscle tissue from molecular parameters in detrained rats, subjected to caloric restriction. METHODS: Sixty-four adult male and female Sprague-Dawley rats were used, initially divided into 2 groups: Control (CON) (n = 16) represented by sedentary animals, and Trained (TRAIN) (n = 48) who underwent treadmill training for eight weeks. After this period, the animals were re-distributed into 6 groups: Sedentary (SED), Trained (TRAIN), Detrained (DT), Detrained + Leucine (LEU), Detrained + Caloric Restriction (DTRC) and Detrained + Caloric Restriction + Leucine (DTRC + LEU). Body mass, food consumption, body composition, insulin sensitivity were analyzed, as well as inflammation markers (IL-6; IL-10; MCP-1; TNF-α; 1L-1α; PAI-1; leptin; adiponectin) and molecular parameters, such as genes and proteins involved in signaling pathways of protein synthesis (mTOR, P-4EBP1, P-s6K1 and eIF4E); protein degradation (MAFBx and MURF) and also amino acid transporters (LAT-1, SNAT 2 and CD98). STATISTICAL ANALYSIS: Values were expressed as mean and standard deviation. Analysis of variance (ANOVA) was used for comparisons between groups after physical detraining, followed by Tukey's test. A 5% significance level was considered in all analyses. Statistical analysis was performed using SPSS software, version 17.0. RESULTS: In relation to body composition, a statistically significant difference was observed in body fat and fat free mass between groups DTRC and DTRC+LEU, compared with other experimental groups. However, there was no statistical difference between groups DTRC and DTRC+LEU. Nevertheless, no statistically significant difference was found when carcass protein was assessed. In relation to molecular parameters, no statistically significant difference was observed between groups, when protein expression related to the signaling pathway of protein synthesis (mTOR, P-4EBP1, P-s6K1 and eIF4E) and leucine transporters (LAT-1;SNAT-2;CD(98) was assessed. When gene expression of the degradation pathway was investigated, a lower expression of gene MURF was found with leucine supplementation; however, this was not statistically different. CONCLUSION: Caloric restriction associated with leucine supplementation was effective in reducing body fat, and increasing fat free mass; however, no statistically significant difference was found between groups DTRC and DTRC+LEU, nor when carcass protein of these animals was assessed. Therefore, it was concluded that chronic leucine supplementation did not reverse the effects triggered by physical detraining and, in addition, it was not sufficient to change the molecular parameters involved in the signaling pathway of protein synthesis and degradation of these animals

Leucine improves protein nutritional status and regulates hepatic lipid metabolism in calorie-restricted rats.

Several studies have highlighted the potential of leucine supplementation for the treatment of metabolic diseases including type 2 diabetes and obesity. Caloric restriction is a common approach to improve the health in diabetic and obese subjects. However, very few studies assessed the effects of leucine supplementation in calorie-restricted animals. Rats were subjected to a 30% calorie-restricted diet for 6 weeks to study the effects of leucine supplementation on protein status markers and lipid metabolism. Caloric restriction reduced the body weight. However, increased leucine intake preserved body lean mass and protein mass and improved protein anabolism as indicated by the increased circulating levels of albumin and insulin-like growth factor-1 (IGF-1), and the liver expression of albumin and IGF-1 messenger RNA. Leucine supplementation also increased the circulating levels of interleukin-6 and leptin but did not affect the tumour necrosis factor-α and monocyte chemotactic protein-1 concentrations. Ketone bodies were increased in rats consuming a leucine-rich diet, but we observed no changes in cholesterol or triglycerides concentrations. Caloric restriction reduced the liver expression of peroxisome proliferator activated receptor-α and glucose-6-phosphatase, whereas leucine supplementation increased the liver expression of 3-hydroxy-3-methyl-glutaryl-CoA reductase (HMG-CoA) reductase and sterol regulatory element-binding transcription factor 1. A leucine-rich diet during caloric restriction preserved whole body protein mass and improved markers of protein anabolism. In addition, leucine modulated the hepatic lipid metabolism. These results indicate that increased leucine intake may be useful in preventing excessive protein waste in conditions of large weight loss.