Taurine supplementation decreases oxidative stress in skeletal muscle after eccentric exercise.

Infrequent exercise, typically involving eccentric actions, has been shown to cause oxidative stress and to damage muscle tissue. High taurine levels are present in skeletal muscle and may play a role in cellular defences against free radical-mediated damage. This study investigates the effects of taurine supplementation on oxidative stress biomarkers after eccentric exercise (EE). Twenty-four male rats were divided into the following groups (n = 6): control; EE; EE plus taurine (EE + Taurine); EE plus saline (EE + Saline). Taurine was administered as a 1-ml 300 mg kg(-1) per body weight (BW) day(-1) solution in water by gavage, for 15 consecutive days. Starting on the 14th day of supplementation, the animals were submitted to one 90-min downhill run session and constant velocity of 1·0 km h(-1) . Forty-eight hours after the exercise session, the animals were killed and the quadriceps muscles were surgically removed. Production of superoxide anion, creatine kinase (CK) levels, lipoperoxidation, carbonylation, total thiol content and antioxidant enzyme were analysed. Taurine supplementation was found to decrease superoxide radical production, CK, lipoperoxidation and carbonylation levels and increased total thiol content in skeletal muscle, but it did not affect antioxidant enzyme activity after EE. The present study suggests that taurine affects skeletal muscle contraction by decreasing oxidative stress, in association with decreased superoxide radical production.

Comparação do treinamento físico de quatro e oito semanas sobre atividade da cadeia transportadora de elétrons e marcadores de estresse oxidativo em fígado de camundongos / Comparison between four- and eight- week physical trainings on the mitochondrial respiratory chain enzyme activities and oxidative stress markers in liver of mice

O presente estudo investigou o efeito de quatro e oito semanas de treinamento físico sobre a atividade dos complexos da cadeia transportadora de elétrons (CTE) e os marcadores de estresse oxidativo em fígado de camundongos. Vinte e um camundongos (CF1, 30-35g) foram distribuídos nos seguintes grupos: não treinado (NT); treinado quatro semanas (T4); treinado oito semanas (T8). Quarenta e oito horas após a última sessão de treinamento os animais foram mortos por decapitação e o fígado foi retirado e estocado em -70ºC para posterior análise. Atividade da succinato desidrogenase (SDH), dos complexos I,II,III e IV da CTE, carbonilação de proteína, conteúdo total de tióis e a atividade da superóxido dismutase foram mensurados. Os resultados demonstram que apenas oito semanas de treinamento aumentam a atividade da SDH, dos quatro complexos da CTE, da superóxido dismutase, e o conteúdo total de tióis em relação ao grupo não treinado. Houve ainda diminuição na carbonilação de proteína no respectivo grupo em relação ao NT. Em conclusão, são necessárias oito semanas de treinamento para que ocorram aumento no funcionamento mitocondrial e melhora nos marcadores de estresse oxidativo em fígado de camundongos.

The present study investigated mitochondrial adaptations and oxidative stress markers after four and eight weeks of running training in liver of mice. Twenty-one male mice (CF1, 30-35g) were distributed into the following groups (n=7): untrained (UT); trained - four weeks (T4); trained - eight weeks (T8). Forty-eight hours after the last training session the animals were killed by decapitation and livers were removed and stored at -70ºC. Succinate dehydrogenase (SDH), complexes I, II, II-III and IV, protein carbonyls (PC), total thiol content and superoxide dismutase activity were measured. The results show that endurance training (8-wk) increases the SDH activity and complexes (I, II, III, IV), superoxide dismutase and total thiol content in liver when compared to untrained animals. Decrease in protein carbonylation in the respective group in relation to UT was also observed. It could be concluded that eight weeks of running training are necessary for mitochondrial respiratory chain enzyme activities increase and improvement in oxidative stress markers in liver of mice.

Physical exercise prevents the exacerbation of oxidative stress parameters in chronic kidney disease.

OBJECTIVE: Reactive oxygen species play an important role in the pathogenesis of chronic kidney disease (CKD). Physical exercise was suggested as a useful approach to diminish impaired oxidative defense mechanisms. This study sought to observe the effects of physical training before the induction of renal lesions on oxidative stress parameters in animals induced for CKD. METHODS: Twenty-four male Wistar rats were divided into four groups (n = 6): sham, sham plus exercise, CKD, and CKD plus exercise. Exercise groups performed physical training on a treadmill for 8 weeks (up to 1 km/h for 50 min/day, 5 days/week). Forty-eight hours after the final exercise session, a surgical reduction of renal mass was performed (5/6 nephrectomized). Thirty days later, blood samples were collected to determine serum creatinine and urea concentrations, and the right kidney was surgically removed and stored at -70 degrees C for later analysis of superoxide production, antioxidant enzymes (superoxide dismutase and catalase), and oxidative damage of lipids (thiobarbituric acid reactive susbstances level) and proteins (carbonyl groups and sulfhydryl content). RESULTS: A significant increase occurred in creatinine and urea levels, superoxide production, antioxidant enzymes, and oxidative damage in the CKD group, compared with sham-treated animals (P < .05). Physical training prevented superoxide production, and decreased the oxidative damage in the CKD group (P < .05), but did not increase the effect of antioxidants. CONCLUSION: Physical training before induction of a renal lesion is capable of improving oxidative damage parameters and oxidant production, without altering renal function and the antioxidant defense system.