Daiane B. Fraga scite author profile

The present study investigated mitochondrial adaptations and oxidative damage after 4 and 8 weeks of running training in skeletal muscle of mice. Twenty-one male mice (CF1, 30-35 g) were distributed into the following groups (n = 7): untrained (UT); trained-4 weeks (T4); trained-8 weeks (T8). Forty-eight hours after the last training session the animals were killed by decapitation and quadriceps (red portion) were removed and stored at -70 degrees C. Succinate dehydrogenase (SDH), complexes I, II, II-III and IV, lipoperoxidation (TBARS), protein carbonyls (PC) and total thiol content were measured. Results show that endurance training (8-wk) increases the SDH activity and complexes (I, II, III, IV), decreases oxidative damage (TBARS, CP) and increases total thiol content in skeletal muscle when compared to untrained animals. In conclusion, eight weeks of running training are necessary for increases in mitochondrial respiratory chain enzyme activities to occur, in association with decreased oxidative damage.

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Preventive and therapeutic potential of ascorbic acid in neurodegenerative diseases

Moretti

Fraga

Rodrigues

2017

CNS Neurosci Ther

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In this review, we summarize the involvement of ascorbic acid in neurodegenerative diseases by presenting available evidence on the behavioral and biochemical effects of this compound in animal models of neurodegeneration as well as the use of ascorbic acid as a therapeutic approach to alleviate neurodegenerative progression in clinical studies. Ascorbate, a reduced form of vitamin C, has gained interest for its multiple functions and mechanisms of action, contributing to the homeostasis of normal tissues and organs as well as to tissue regeneration. In the brain, ascorbate exerts neuromodulatory functions and scavenges reactive oxygen species generated during synaptic activity and neuronal metabolism. These are important properties as redox imbalance and abnormal protein aggregation constitute central mechanisms implicated in the pathogenesis of neurodegenerative diseases, including Alzheimer's, Parkinson's, and Huntington's diseases, multiple sclerosis, and amyotrophic lateral sclerosis. Indeed, several studies have indicated an association between low serum ascorbate concentrations and neurodegeneration. Moreover, ascorbic acid is a suitable candidate for supplying either antioxidant defense or modulation of neuronal and astrocytic metabolism under neurodegenerative conditions. Ascorbic acid acts mainly by decreasing oxidative stress and reducing the formation of protein aggregates, which may contribute to the reduction of cognitive and/or motor impairments observed in neurodegenerative processes. Although several studies support a possible role of ascorbic acid administration against neurodegeneration, more researches are essential to substantiate the existing results and accelerate the knowledge in this field.

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Daiane B. Fraga

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Physical exercise increases mitochondrial function and reduces oxidative damage in skeletal muscle

Preventive and therapeutic potential of ascorbic acid in neurodegenerative diseases

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