The dose-dependent antioxidant effects of physical exercise in the hippocampus of mice.

Exercise increases both the consumption of oxygen and the production of reactive species in biological tissues, and this is counterbalanced by antioxidant adaptations to regular physical training. When the intensity of exercise fluctuates between mild and moderate, it improves the status of reduction-oxidation balance in the brain and induces neuroplasticity. However, intense exercise can oxidize the brain and impair neurological function. The effect of the frequency of exercise, which is an important factor in physical training, is still unknown. The effect of periodic exercise on biomarkers of oxidative stress in the hippocampus of mice was evaluated in this study. Mice were made to run on a treadmill for 8 weeks, two, three, or five times per week, and their hippocampi and quadriceps femoris muscles were then dissected. Biomarkers of oxidative damage were negatively correlated with the frequency of exercise and mitochondrial muscular activity, while the sulfhydryl contents were positively correlated with exercise frequency. A logistic analysis revealed a dose-dependent effect of exercise on these biomarkers. In summary, these results suggested that manipulating the frequency of physical exercise could induce antioxidant-related adaptations in the hippocampi of adult mice.

Therapeutic action of physical exercise on markers of oxidative stress induced by chronic kidney disease.

AIMS: To investigate the effects physical training exerts on markers of oxidative stress in rats with chronic kidney disease (CKD). MAIN METHODS: Twenty-four male Wistar rats were divided into four groups (n=6): sham, CKD, exercise-sham and exercise-CKD. Surgical reduction of the renal mass was performed (5/6 nephrectomized) and exercise was conducted on a treadmill (50 min/day up to 1 km/h for, 5 days/week for eight weeks). Forty-eight hours after the last exercise session, blood (1 mL) was collected from the abdominal aorta and animals were decapitated. The left kidney was surgically removed and stored at -70 °C for subsequent analysis. KEY FINDINGS: An increase was observed in creatinine and urea levels, superoxide production, antioxidant enzymes, and oxidative damage in the CKD group, as compared to sham animals (p<0.05). Physical training made superoxide production and oxidative damage decrease in the CKD group (p<0.05), increasing SOD and GPX activity, though it did not increase the antioxidant effects of CAT, and renal parameters. SIGNIFICANCE: Even without altering renal function in animals induced to CKD model, the results show that physical training is an important component in the treatment of CKD, because it exerted a positive influence on oxidative stress parameters, especially on the reduction in superoxide production and oxidative damage, as well as an improvement in the antioxidant defense system, like SOD and GPX.

Efeito de diferentes frequências semanais de treinamento sobre parâmetros de estresse oxidativo / Effect of different frequencies weekly training on parameters of oxidative stress

Durante a contração muscular intensa induzida pelo exercício físico, há aumento na produção de espécies reativas de oxigênio, ocasionando estresse oxidativo em diversos órgãos, dentre eles o fígado e o coração. O treinamento físico pode aumentar as defesas antioxidantes e diminuir o estresse oxidativo. Contudo, ainda existem dúvidas sobre a frequência de treinamento necessária para melhorar parâmetros de estresse oxidativo. Este trabalho tem como objetivo verificar o efeito das frequências de duas e três vezes de exercício por semana sobre biomarcadores de estresse oxidativo no fígado e coração. Foram utilizados 18 camundongos machos (CF1), jovens (30 a 35g) divididos em grupos (n=6/grupo): não treinado (NT); treinado duas vezes por semana (T2) e treinado três vezes por semana (T3). Os animais foram submetidos ao treinamento durante oito semanas. Quarenta e oito horas após a última sessão os animais foram sacrificados. O fígado e o coração foram removidos e armazenados em freezer - 70ºC. Foram analisadas as substâncias reativas ao ácido tiobarbitúrico, carbonilação de proteínas, conteúdo total de tióis, atividades da superóxido dismutase , catalase e glutationa peroxidase. Os resultados demonstraram que apenas o grupo T3 reduziu dano oxidativo. Ademais, houve aumento no conteúdo total de tióis, atividades da superóxido dismutase e catalase no mesmo grupo em comparação com o não treinado. A atividade da glutationa peroxidase não apresentou diferença significativa entre os grupos. Este estudo demonstrou que somente a frequência de treinamento de três vezes por semana reduz dano oxidativo e aumenta a eficiência do sistema enzimático antioxidante de camundongos.

Intense muscle contraction induced by physical exercise increases the production of reactive oxygen species, which causes oxidative stress in several organs, such as the liver and the heart. Physical training may increase antioxidative defenses and decrease oxidative stress. However, it is not clear what training frequency improves oxidative stress parameters. This study evaluated the effect of training two and three times a week on oxidative stress biomarkers in the liver and the heart. Eighteen young male mice (CF1) weighing 30 to 35 g were divided into three groups (n=6): no training (NT); twice a week training (T2); and three times a week training (T3). The training program lasted eight weeks, and the animals were killed 48 hours after the last training session. The liver and the heart were removed and stored at -70o C. The following analyses were conducted: thiobarbituric acid reactive substances, protein carbonylation, total thiol content, superoxide dismutase, catalase and glutathione peroxidase. Oxidative damage was reduced only in the T3 group, and there was an increase in total thiol content, supeoxidase dismutase and catalase in T3 when compared with the NT group. Glutathione peroxidase was not significantly different between groups. Only training three times a week seemed to reduce oxidative stress and increase the efficiency of the antioxidant system in mice.