在成人中，4周的冷驯化将非耦合产热从骨骼肌转移到棕色脂肪组织

The Japanese journal of physiology Pub Date : 2016-12-01 DOI:10.1113/JP273395

D. Blondin, A. Daoud, T. Taylor, H. Tingelstad, V. Bézaire, D. Richard, A. Carpentier, A. W. Taylor, M. Harper, C. Aguer, F. Haman

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引用次数: 83

摘要

在人类急性冷暴露期间，肌肉来源的产热包括冷诱导的骨骼肌质子泄漏和颤抖的增加。每日冷暴露导致棕色脂肪组织氧化能力增加，同时冷诱导的骨骼肌质子泄漏和寒战强度降低。在冷驯化后，肌电图决定的肌肉活动和全身产热之间的耦合得到改善，这表明atp酶依赖性产热的维持和骨骼肌atp酶非依赖性产热的减少。虽然每天的寒冷暴露不会改变股外侧肌的纤维成分，但纤维成分是急性寒冷暴露期间引起的颤抖模式的有力预测因子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Four‐week cold acclimation in adult humans shifts uncoupling thermogenesis from skeletal muscles to brown adipose tissue

Muscle‐derived thermogenesis during acute cold exposure in humans consists of a combination of cold‐induced increases in skeletal muscle proton leak and shivering. Daily cold exposure results in an increase in brown adipose tissue oxidative capacity coupled with a decrease in the cold‐induced skeletal muscle proton leak and shivering intensity. Improved coupling between electromyography‐determined muscle activity and whole‐body heat production following cold acclimation suggests a maintenance of ATPase‐dependent thermogenesis and decrease in skeletal muscle ATPase independent thermogenesis. Although daily cold exposure did not change the fibre composition of the vastus lateralis, the fibre composition was a strong predictor of the shivering pattern evoked during acute cold exposure.

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The Japanese journal of physiology

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