甲状腺激素影响下的线粒体周转调控

Control of mitochondrial turnover under the influence of thyroid hormone.

作者信息

Gross N J

出版信息

J Cell Biol. 1971 Jan;48(1):29-40. doi: 10.1083/jcb.48.1.29.

DOI:10.1083/jcb.48.1.29

PMID:5545111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2108212/

Abstract

The effect of thyroid hormone on the turnover of mitochondrial DNA and protein was studied in rat heart and liver. Changes in turnover were observed in both thyroidectomized and normal rats following administration of thyroid hormone. In heart and liver the turnover of mitochondrial DNA and protein was slower in thyroidectomized rats than in normal rats. The turnover of mitochondrial DNA and protein was affected similarly following the administration of thyroid hormone, suggesting that mechanisms which control turnover of mitochondrial constituents may be predicated upon a major part of the mitochondrion. In heart a decreased rate of degradation contributes to the increase in total mitochondrial protein. Mitochondrial DNA, labeled before administration of thyroid hormone, turns over, after the start of thyroid hormone administration, at a different rate from that in newly synthesized DNA. The different turnover rates suggest that in liver the pre-existing population of mitochondria is being replaced by another population synthesized under new physiological conditions.

摘要

研究了甲状腺激素对大鼠心脏和肝脏线粒体DNA及蛋白质周转的影响。在给予甲状腺激素后，甲状腺切除大鼠和正常大鼠的周转均出现了变化。在心脏和肝脏中，甲状腺切除大鼠线粒体DNA和蛋白质的周转比正常大鼠慢。给予甲状腺激素后，线粒体DNA和蛋白质的周转受到类似影响，这表明控制线粒体成分周转的机制可能基于线粒体的主要部分。在心脏中，降解速率降低导致线粒体总蛋白增加。在给予甲状腺激素之前标记的线粒体DNA，在开始给予甲状腺激素后，其周转速率与新合成DNA的周转速率不同。不同的周转速率表明，在肝脏中，先前存在的线粒体群体正在被在新的生理条件下合成的另一群体所取代。

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