Howard T Jacobs, Pierre Rustin, Paule Bénit, Dan Davidi, Mügen Terzioglu
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引用次数: 0
Abstract
Recent experimental studies indicate that mitochondria in mammalian cells are maintained at temperatures of at least 50 °C. While acknowledging the limitations of current experimental methods and their interpretation, we here consider the ramifications of this finding for cellular functions and for evolution. We consider whether mitochondria as heat-producing organelles had a role in the origin of eukaryotes and in the emergence of homeotherms. The homeostatic responses of mitochondrial temperature to externally applied heat imply the existence of a molecular heat-sensing system in mitochondria. While current findings indicate high temperatures for the innermost compartments of mitochondria, those of the mitochondrial surface and of the immediately surrounding cytosol remain to be determined. We ask whether some aspects of mitochondrial dynamics and motility could reflect changes in the supply and demand for mitochondrial heat, and whether mitochondrial heat production could be a factor in diseases and immunity.
最近的实验研究表明,哺乳动物细胞中的线粒体至少可以在 50 °C 的温度下维持。在承认当前实验方法及其解释存在局限性的同时,我们在此考虑这一发现对细胞功能和进化的影响。我们考虑线粒体作为产热细胞器是否在真核生物的起源和同温动物的出现过程中发挥了作用。线粒体温度对外部热量的平衡反应意味着线粒体中存在分子热感应系统。尽管目前的研究结果表明线粒体最内层的温度较高,但线粒体表面和紧邻其周围的细胞膜的温度仍有待确定。我们想知道线粒体动力学和运动的某些方面是否能反映线粒体热量供求的变化,以及线粒体产热是否会成为疾病和免疫的一个因素。
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