Search results for "Agingra"

showing 1 items of 1 documents

Roles of sedentary aging and lifelong physical activity in exchange of glutathione across exercising human skeletal muscle.

2014

Reactive oxygen species (ROS) are important signaling molecules with regulatory functions, and in young and adult organisms, the formation of ROS is increased during skeletal muscle contractions. However, ROS can be deleterious to cells when not sufficiently counterbalanced by the antioxidant system. Aging is associated with accumulation of oxidative damage to lipids, DNA, and proteins. Given the pro-oxidant effect of skeletal muscle contractions, this effect of age could be a result of excessive ROS formation. We evaluated the effect of acute exercise on changes in blood redox state across the leg of young (23±1 years) and older (66±2 years) sedentary humans by measuring the whole blood co…

MaleAgingAntioxidantmedicine.medical_treatmentSkeletal muscleFree radicalsBiochemistryAntioxidantschemistry.chemical_compoundSuperoxide Dismutase-1Glutathione Peroxidase GPX1Exercise/physiologyGlutathione Peroxidase/biosynthesisWhole bloodchemistry.chemical_classificationNADPH oxidasebiologyAgingraMotor Activity/physiologyMiddle AgedCatalaseGlutathionemedicine.anatomical_structureNADPH Oxidases/biosynthesisOxidation-ReductionMuscle Contraction/physiologyMuscle ContractionAdultmedicine.medical_specialtyCell signalingCatalase/biosynthesisGlutathione/bloodSuperoxide Dismutase/biosynthesisPhosphoproteins/biosynthesisMotor ActivityYoung AdultReactive Oxygen Species/metabolismPhysiology (medical)Internal medicinemedicineHumansMuscle SkeletalExerciseAgedLeg/physiologyReactive oxygen speciesGlutathione PeroxidaseLegAntioxidants/analysisSuperoxide DismutaseSkeletal muscleNADPH OxidasesGlutathionePhosphoproteinsMuscle Skeletal/physiologyOxidative StressEndocrinologyEnzymechemistrybiology.proteinLipid PeroxidationSedentary BehaviorReactive oxygen speciesReactive Oxygen SpeciesFree radical biologymedicine
researchProduct