越来越多的形成孔的 BCL-2 家族蛋白导致线粒体凋亡穿孔。

Apoptotic mitochondrial poration by a growing list of pore-forming BCL-2 family proteins.

机构信息

Department of Biochemistry and Molecular Biology, University of Arkansas for Medical Sciences, Little Rock, Arkansas, USA.

出版信息

Bioessays. 2023 Mar;45(3):e2200221. doi: 10.1002/bies.202200221. Epub 2023 Jan 17.

DOI:10.1002/bies.202200221

PMID:36650950

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9975053/

Abstract

The pore-forming BCL-2 family proteins are effectors of mitochondrial poration in apoptosis initiation. Two atypical effectors-BOK and truncated BID (tBID)-join the canonical effectors BAK and BAX. Gene knockout revealed developmental phenotypes in the absence the effectors, supporting their roles in vivo. During apoptosis effectors are activated and change shape from dormant monomers to dynamic oligomers that associate with and permeabilize mitochondria. BID is activated by proteolysis, BOK accumulates on inhibition of its degradation by the E3 ligase gp78, while BAK and BAX undergo direct activation by BH3-only initiators, autoactivation, and crossactivation. Except tBID, effector oligomers on the mitochondria appear as arcs and rings in super-resolution microscopy images. The BH3-in-groove dimers of BAK and BAX, the tBID monomers, and uncharacterized BOK species are the putative building blocks of apoptotic pores. Effectors interact with lipids and bilayers but the mechanism of membrane poration remains elusive. I discuss effector-mediated mitochondrial poration.

摘要

形成孔的 BCL-2 家族蛋白是凋亡起始中线粒体穿孔的效应物。两种非典型效应物-BOK 和截断的 BID（tBID）-与经典效应物 BAK 和 BAX 结合。基因敲除显示在没有效应物的情况下存在发育表型，支持它们在体内的作用。在凋亡过程中，效应物被激活并从休眠的单体改变形状为动态寡聚体，与线粒体结合并使其通透。BID 通过蛋白水解激活，BOK 的积累抑制其被 E3 连接酶 gp78 降解，而 BAK 和 BAX 通过 BH3 仅起始物直接激活、自动激活和交叉激活。除了 tBID 之外，在线粒体上的效应物寡聚体在超分辨率显微镜图像中呈现为弧形和环形。BAK 和 BAX 的 BH3 凹槽二聚体、tBID 单体和未表征的 BOK 物种是凋亡孔的潜在构建块。效应物与脂质和双层相互作用，但膜穿孔的机制仍不清楚。我讨论了效应物介导的线粒体穿孔。

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