Effects of glutamine and alanine supplementation, in their free form or as dipeptide, on fatigue parameters of rats submitted to resistance training / Efeitos da suplementação com glutamina e alanina, na forma livre ou como dipeptídeo, sobre parâmetros de fadiga de ratos submetidos ao treinamento resistido

Fatigue is defined as the inability to maintain muscle power and strength, impairing performance. Nutritional interventions have been used to delay this phenomenon, such as glutamine and alanine supplementation. These amino acids might attenuate several causes of fatigue, since they are important energy substrates, transport ammonia avoiding the accumulation of this toxic metabolite and attenuate muscle damage and oxidative stress. Thus, the aim of this study was to evaluate the effects of glutamine and alanine supplementation on central and muscle fatigue parameters of rats submitted to resistance training (RT). Forty adult Wistar rats (60 days) were distributed into five groups: SED (sedentary, receiving water), CON (trained, receiving water), ALA, G+A and DIP (trained and supplemented with alanine, glutamine and alanine in their free form, and Lalanyl-L-glutamine, respectively). Trained groups underwent a ladder-climbing exercise, with progressive loads, for eight weeks. Supplements were diluted in water to a 4% concentration and offered ad libitum during the last 21 days of experiment. RT increased plasma glucose, the muscle concentrations of ammonia and glutathione (GSH) and the muscle damage parameters - plasma creatine kinase (CK) and lactate dehydrogenase (LDH), whereas decreased muscle glycogen. G+A supplementation prevented the increase of muscle ammonia by RT, while ALA and G+A administration reduced plasma CK and LDH, and DIP supplementation increased the muscle content of glycogen and LDH. Contrary to expectations, DIP administration increased central fatigue parameters, such as plasma concentration of free fatty acids (FFA), hypothalamic content of serotonin and serotonin/dopamine ratio. Despite these results, there was no difference between groups in the maximum carrying capacity (MCC) tests. In conclusion, supplementation with glutamine and alanine improves some fatigue parameters, but does not affect physical performance of rats submitted to RT

O termo fadiga é definido como a incapacidade de manutenção da força e da potência musculares, prejudicando a performance. Intervenções nutricionais têm sido utilizadas para retardar este fenômeno, como a suplementação com glutamina e alanina. Estes aminoácidos poderiam atenuar diversas causas de fadiga, pois são importantes substratos energéticos, carreiam amônia evitando o acúmulo deste metabólito tóxico e atenuam a lesão muscular e o estresse oxidativo. Logo, o objetivo deste estudo foi avaliar os efeitos da suplementação com glutamina e alanina sobre parâmetros de fadiga central e muscular em ratos submetidos ao treinamento resistido (TR). Foram utilizados 40 ratos Wistar adultos (60 dias de idade), distribuídos nos grupos: SED (não treinados, recebendo água), CON (treinados, recebendo água), ALA, G+A e DIP (treinados e suplementados com alanina, glutamina e alanina livres, e L-alanil-L-glutamina, respectivamente). Os grupos treinados realizaram um exercício de escalada em escada, com aumento progressivo de carga, durante oito semanas. A suplementação foi diluída a 4% em água e ofertada via oral, ad libitum, durante os últimos 21 dias de experimento. O TR aumentou a glicemia, as concentrações musculares de amônia e de glutationa (GSH) e os parâmetros de lesão muscular - creatina quinase (CK) e lactato desidrogenase (LDH) no plasma, enquanto reduziu o glicogênio no músculo. A suplementação com G+A preveniu o aumento de amônia muscular promovido pelo TR, enquanto a administração de ALA e G+A reduziu as concentrações de CK e LDH no plasma, e a suplementação com DIP aumentou o conteúdo muscular de glicogênio e de LDH. Ao contrário do esperado, a administração de DIP aumentou parâmetros de fadiga central, como as concentrações plasmáticas de ácidos graxos livres, o conteúdo hipotalâmico de serotonina e a razão serotonina/dopamina. Apesar disso, não houve diferença entre os grupos nos testes de carga máxima. Em conclusão, a suplementação com glutamina e alanina melhora alguns parâmetros de fadiga, mas não afeta o desempenho físico em ratos submetidos ao TR

Prevalencia de anticuerpos anti islotes pancreáticos en 1.021 parientes de diabéticos tipo 1 / Prevalence of anti pancreatic islet antibodies among 1.021 relatives of type 1 diabetic patients

Background: An immunological damage of beta cells in the islets of Langerhans, plays a role in the pathogenesis of type 1 diabetes. Recently, the identification of individuals in pre clinical phase and with high risk of developing type 1 diabetes, has become possible by means of the detection of immune markers such as islet cell antibodies (ICA) and the measurement of first phase response of insulin (FPRI). Subjects and methods: We studied 1,021 first degree relatives of type 1 diabetics, aged 4 to 35 years. ICA were measured using poly-IgG peroxidase in sections of human pancreas. In those subjects with positive ICA and normal oral glucose tolerance test, the FPRI was measured. FPRI was defined as the sum of insulinemias at minutes 1 and 3 after a three minutes 0.5 g/kg glucose load. Results: Thirty subjects were ICA (+), defined as having more than 20 juvenile diabetes foundation units (prevalence of 2.9 percent). No differences in age, sex and closeness of familial relationship was found between ICA (+) and ICA (-) individuals. FPRI was measured in 24 subjects with normal oral glucose tolerance test and was normal in five. Seventeen subjects had a decreased response (between percentiles 1 and 5) and two had a response below percentile 1. No relationship between ICA levels and FPRI was found. Conclusions: The early detection of populations at risk of developing type 1 diabetes should be regarded as an important tool to better understand the natural history of the disease and to develop preventive programs in the future

Anti-idiotype guinea pig antibodies as response to insulin immunization

The study was done using 39 guinea pigs grouped as followed: 18 were with 0.5 mg of porcine insulin emulsified in complete Freund´s adjuvant; 12 were injected with saline and 9 were as control of cardiac bleeding during the assay. Intraperitoneal glucose tolerance tests (IGTT) were carried out on days 0, 11,32 and 38. Seven of the thirteen guinea pigs immunized with insulin which survived after the study, showed glucose intolerance on day 32 at 90 and 120 min (p<0.01 and p<0.001) and on day 38 at 120 min (p<0.05). Anti-idiotypic IgG partially purified from a sera pool from these animals inhibited (125-)Insulin binding to rat hepatocytes, immunoprecipitated (125)I-rat insulin receptors and recognized the alpha-subunit of insulin receptor in immunobloting. We conclude that insulin anti-idiotypes in guinea pigs offer a simple way to produce antibodies against insulin receptor binding site. The methodology for anti-idiotype identification can be applied to patients with insulin resistance.