线粒体蛋白的输入通过代谢重编程和从头合成丝氨酸来决定寿命。

Mitochondrial protein import determines lifespan through metabolic reprogramming and de novo serine biosynthesis.

机构信息

Institute of Molecular Biology and Biotechnology, Foundation for Research and Technology - Hellas, Heraklion, GR-70013,, Crete, Greece.

Department of Biology, School of Sciences and Engineering, University of Crete, Heraklion, GR-70013,, Crete, Greece.

出版信息

Nat Commun. 2022 Feb 3;13(1):651. doi: 10.1038/s41467-022-28272-1.

DOI:10.1038/s41467-022-28272-1

PMID:35115503

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8814026/

Abstract

Sustained mitochondrial fitness relies on coordinated biogenesis and clearance. Both processes are regulated by constant targeting of proteins into the organelle. Thus, mitochondrial protein import sets the pace for mitochondrial abundance and function. However, our understanding of mitochondrial protein translocation as a regulator of longevity remains enigmatic. Here, we targeted the main protein import translocases and assessed their contribution to mitochondrial abundance and organismal physiology. We find that reduction in cellular mitochondrial load through mitochondrial protein import system suppression, referred to as MitoMISS, elicits a distinct longevity paradigm. We show that MitoMISS triggers the mitochondrial unfolded protein response, orchestrating an adaptive reprogramming of metabolism. Glycolysis and de novo serine biosynthesis are causatively linked to longevity, whilst mitochondrial chaperone induction is dispensable for lifespan extension. Our findings extent the pro-longevity role of UPR and provide insight, relevant to the metabolic alterations that promote or undermine survival and longevity.

摘要

持续的线粒体健康依赖于协调的生物发生和清除。这两个过程都受到蛋白质不断靶向细胞器的调节。因此，线粒体蛋白的输入决定了线粒体丰度和功能的速度。然而，我们对作为长寿调节剂的线粒体蛋白易位的理解仍然是神秘的。在这里，我们针对主要的蛋白输入转位酶，并评估它们对线粒体丰度和生物体生理学的贡献。我们发现，通过抑制线粒体蛋白输入系统来减少细胞中线粒体的负荷，即所谓的 MitoMISS，会引发一个独特的长寿模式。我们表明，MitoMISS 触发了线粒体未折叠蛋白反应，协调了代谢的适应性重编程。糖酵解和从头丝氨酸生物合成与长寿有因果关系，而线粒体伴侣诱导对于延长寿命是可有可无的。我们的研究结果扩展了 UPR 的延长寿命作用，并提供了相关的见解，涉及到促进或破坏生存和长寿的代谢改变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ba1b/8814026/fa5a25bd0696/41467_2022_28272_Fig1_HTML.jpg

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线粒体蛋白的输入通过代谢重编程和从头合成丝氨酸来决定寿命。

Mitochondrial protein import determines lifespan through metabolic reprogramming and de novo serine biosynthesis.

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