缺氧-适应性调整海洋鱼类骨骼肌的无氧代谢和爆发性游泳性能。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Benjamin Negrete Jr , Kerri Lynn Ackerly , Andrew J. Esbaugh
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引用次数: 0

摘要

红鼓(Sciaenops ocellatus)是一种原产于墨西哥湾的海洋远洋鱼类,经常经历低氧(缺氧)时期。最近的研究表明,该物种有能力通过呼吸适应改善缺氧时的有氧表现。然而,人们仍然不知道缺氧适应如何影响红鼓的无氧代谢,以及疲惫运动和恢复的后果。幼鱼在常氧(n = 15,溶解氧为 90.4 ± 6.42 %)或低氧(n = 15,溶解氧为 33.6 ± 7.2 %)环境中适应 8 天,然后在三个时间点采样:静止时、运动后和 3 小时恢复期后。静息时间点用于描述适应表型的特征,而其余时间点则展示了这种表型对剧烈运动的反应。对全血、红肌、白肌和心脏组织进行采样,以检测代谢物和酶的活性。静息表型的特点是 pHe 较低和骨骼肌 ATP 发生变化。剧烈运动增加了肌肉乳酸,降低了磷酸肌酸和 ATP,但对适应没有影响。有趣的是,在所有运动时间点,低氧适应鱼的 pHe 和 pHi 均高于对照组。与对照组相比,缺氧驯化鱼在每个取样时间段的红肌肉 ATP 都较低。此外,缺氧驯化的鱼增加了红肌中乳酸脱氢酶的活性。缺氧驯化可提高白肌 ATP 和糖酵解酶己糖激酶的活性。在步态转换游泳测试中,与对照组鱼类相比,缺氧驯化鱼类在常氧条件下以较低的速度进行无氧动力爆发游泳。这些数据表明,驯化增加了对无氧代谢的依赖,并不利于疲惫运动后的恢复。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hypoxia-acclimation adjusts skeletal muscle anaerobic metabolism and burst swim performance in a marine fish

Hypoxia-acclimation adjusts skeletal muscle anaerobic metabolism and burst swim performance in a marine fish

Red drum, Sciaenops ocellatus, are a marine teleost native to the Gulf of Mexico that routinely experiences periods of low oxygen (hypoxia). Recent work has demonstrated this species has the capacity to improve aerobic performance in hypoxia through respiratory acclimation. However, it remains unknown how hypoxia acclimation impacts anaerobic metabolism in red drum, and the consequences of exhaustive exercise and recovery. Juvenile fish were acclimated to normoxia (n = 15, DO 90.4 ± 6.42 %) or hypoxia (n = 15, DO 33.6 ± 7.2 %) for 8 days then sampled at three time points: at rest, after exercise, and after a 3 h recovery period. The resting time point was used to characterize the acclimated phenotype, while the remaining time points demonstrate how this phenotype responds to exhaustive exercise. Whole blood, red muscle, white muscle, and heart tissues were sampled for metabolites and enzyme activity. The resting phenotype was characterized by lower pHe and changes to skeletal muscle ATP. Exhaustive exercise increased muscle lactate, and decreased phosphocreatine and ATP with no effect of acclimation. Interestingly, hypoxia-acclimated fish had higher pHe and pHi than control in all exercise time points. Red muscle ATP was lower in hypoxia-acclimated fish versus control at each sample period. Moreover, acclimated fish increased lactate dehydrogenase activity in the red muscle. Hypoxia acclimation increased white muscle ATP and hexokinase activity, a glycolytic enzyme. In a gait-transition swim test, hypoxia-acclimated fish recruited anaerobic-powered burst swimming at lower speeds in normoxia compared to control fish. These data suggest that acclimation increases reliance on anaerobic metabolism, and does not benefit recovery from exhaustive exercise.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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