运动训练和亚慢性铅锌中毒大鼠肌肉中线粒体酶的活性。

Acta physiologica Polonica Pub Date : 1989-09-01
P Laszczyca
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引用次数: 0

摘要

本研究的目的是评估铅和过量锌对骨骼肌线粒体适应体力活动的影响。大鼠每公斤体重皮下注射含2 mg Zn+2和/或3 mg Pb2+的溶液,每周1次,连续12周。在最后的6周,每周6次,大鼠进行耐力训练,包括每天游泳15分钟,额外负荷为体重的5%。测定了比目鱼肌(ST纤维)、腓肠肌浅部(FTb纤维)和深层(FTa纤维)线粒体组分的异柠檬酸盐(ICD)、苹果酸盐(SDH)、琥珀酸盐(MDH)脱氢酶、细胞色素氧化酶(COX)活性和蛋白质含量(PM)。在注射生理盐水的对照组(C)中,FTa和FTb纤维的ICD和MDH活性高于ST纤维。与FTb纤维相比,SDH和COX在FTa和ST中的活性更高。锌处理降低了ST纤维的ICD、SDH和COX活性。铅中毒导致所有纤维类型MDH活性降低,ST纤维SDH活性降低。锌和铅的同时作用使FTb纤维中ICD活性增加,COX活性降低。它还导致ST纤维中SDH的增加和COX活性的降低。这些结果表明,ST纤维更容易受到锌和铅引起的适应体育锻炼的干扰。在所研究的过程中,锌和铅的作用没有统一的拮抗迹象。
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The activity of mitochondrial enzymes in the muscles of rats subjected to physical training and subchronical intoxication with lead and zinc.

The aim of this study was to evaluate the effect of lead and excess zinc on the adaptation of mitochondria from skeletal muscles to physical effort. Rats were intoxicated once a week for 12 weeks by subcutaneous injection of the solution containing 2 mg Zn+2 and/or 3 mg Pb2+ per kg of body weight. During the last 6 weeks, 6 times weekly, rats performed endurance training which involved swimming 15 minutes daily with additional load of 5% of the body weight. The activities of isocitrate (ICD), malate (SDH), succinate (MDH) dehydrogenases, cytochrome oxidase (COX) and protein content (PM) were determined in the mitochondrial fractions obtained from the soleus muscle (ST fibres), and from the superficial (FTb fibres) and deep (FTa fibres) parts of the gastrocnemius muscle. In the control group (C), which was injected with saline, higher activities of ICD and MDH were obtained in FTa and FTb fibres than in the ST fibres. SDH and COX had higher activities in FTa and ST compared to FTb fibres. Zinc treatment (Zn) caused diminution of ICD, SDH and COX activities in ST fibres. Lead intoxication (Pb) resulted in a decrease of MDH activity in all fibre types, and in a decrease of SDH activity in ST fibres. Simultaneous action of zinc and lead produced an increase in ICD activity and diminution of COX activity in FTb fibres. It also resulted in an increase of SDH and decrease of COX activity in ST fibres. These results suggest that the ST fibres are more susceptible to disturbances of adaptation to physical exercise caused by zinc and lead. There are no signs of uniform antagonism between zinc and lead action in the processes under investigation.

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