Ozone(O_(3))pollution can decrease sport performance and induce respiratory toxicity,but relatively few studies have investigated its effects on skeletal muscles.We randomly assigned rats to the following groups based...Ozone(O_(3))pollution can decrease sport performance and induce respiratory toxicity,but relatively few studies have investigated its effects on skeletal muscles.We randomly assigned rats to the following groups based on a 2×4 two-factor factorial design:Air+0,Air+10,Air+15,and Air+20,O_(3)+0,O_(3)+10,O_(3)+15,and O_(3)+20.The rats in the+0 groups rested,whereas those in the+10,+15,and+20 groups ran on a treadmill(in clean air for Air groups and in air polluted with 0.14 parts per million[ppm]O_(3)for O_(3)groups)at speeds of+10,+15,and+20 m/min,respectively,for 1 h.Thereafter,key enzyme activities involving the tricarboxylic acid cycle,oxidative phosphorylation,adenosine triphosphate(ATP)content,histopathological changes,oxidative stress,inflammation factors,and apoptosis were assessed in the rat quadriceps femoris samples.Ozone reduced key enzyme activities and ATP contents in the quadriceps femoris regardless of whether the rats exercised.Pathological changes,inflammatory factors,oxidative stress,and mitochondria-dependent apoptosis were only evident under conditions of exercise combined with ozone and increasingly worsened as exercise intensity increased.These findings suggested that acute exercise under ozone exposure could induce damage to the quadriceps femoris,which would negatively affect sport performance.Ozone-induced disrupted energy metabolism might be an early event that becomes more critical as exercise intensity increases.Therefore,care should be taken when exercising in polluted air,even when ozone pollution is mild.展开更多
基金supported by the National Key Research and Development Program of China[grant number 2017YFC0211600,2017YFC0211603][grant number AWS16J004,BWS17J025].
文摘Ozone(O_(3))pollution can decrease sport performance and induce respiratory toxicity,but relatively few studies have investigated its effects on skeletal muscles.We randomly assigned rats to the following groups based on a 2×4 two-factor factorial design:Air+0,Air+10,Air+15,and Air+20,O_(3)+0,O_(3)+10,O_(3)+15,and O_(3)+20.The rats in the+0 groups rested,whereas those in the+10,+15,and+20 groups ran on a treadmill(in clean air for Air groups and in air polluted with 0.14 parts per million[ppm]O_(3)for O_(3)groups)at speeds of+10,+15,and+20 m/min,respectively,for 1 h.Thereafter,key enzyme activities involving the tricarboxylic acid cycle,oxidative phosphorylation,adenosine triphosphate(ATP)content,histopathological changes,oxidative stress,inflammation factors,and apoptosis were assessed in the rat quadriceps femoris samples.Ozone reduced key enzyme activities and ATP contents in the quadriceps femoris regardless of whether the rats exercised.Pathological changes,inflammatory factors,oxidative stress,and mitochondria-dependent apoptosis were only evident under conditions of exercise combined with ozone and increasingly worsened as exercise intensity increased.These findings suggested that acute exercise under ozone exposure could induce damage to the quadriceps femoris,which would negatively affect sport performance.Ozone-induced disrupted energy metabolism might be an early event that becomes more critical as exercise intensity increases.Therefore,care should be taken when exercising in polluted air,even when ozone pollution is mild.
