还原应激反应的结构基础与调控。

Structural basis and regulation of the reductive stress response.

机构信息

Department of Molecular and Cell Biology, University of California at Berkeley, Berkeley, CA 94720, USA; Howard Hughes Medical Institute, University of California at Berkeley, Berkeley, CA 94720, USA.

Department of Molecular and Cell Biology, University of California at Berkeley, Berkeley, CA 94720, USA.

出版信息

Cell. 2021 Oct 14;184(21):5375-5390.e16. doi: 10.1016/j.cell.2021.09.002. Epub 2021 Sep 24.

DOI:10.1016/j.cell.2021.09.002

PMID:34562363

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8810291/

Abstract

Although oxidative phosphorylation is best known for producing ATP, it also yields reactive oxygen species (ROS) as invariant byproducts. Depletion of ROS below their physiological levels, a phenomenon known as reductive stress, impedes cellular signaling and has been linked to cancer, diabetes, and cardiomyopathy. Cells alleviate reductive stress by ubiquitylating and degrading the mitochondrial gatekeeper FNIP1, yet it is unknown how the responsible E3 ligase CUL2 can bind its target based on redox state and how this is adjusted to changing cellular environments. Here, we show that CUL2 relies on zinc as a molecular glue to selectively recruit reduced FNIP1 during reductive stress. FNIP1 ubiquitylation is gated by pseudosubstrate inhibitors of the BEX family, which prevent premature FNIP1 degradation to protect cells from unwarranted ROS accumulation. FEM1B gain-of-function mutation and BEX deletion elicit similar developmental syndromes, showing that the zinc-dependent reductive stress response must be tightly regulated to maintain cellular and organismal homeostasis.

摘要

虽然氧化磷酸化最著名的是产生 ATP，但它也会产生作为不变副产物的活性氧 (ROS)。ROS 的耗竭低于其生理水平，即所谓的还原性应激，会阻碍细胞信号转导，并与癌症、糖尿病和心肌病有关。细胞通过泛素化和降解线粒体守门员 FNIP1 来减轻还原性应激，但尚不清楚负责的 E3 连接酶 CUL2 如何根据氧化还原状态结合其靶标，以及如何调整以适应不断变化的细胞环境。在这里，我们表明 CUL2 依赖锌作为分子胶，在还原性应激期间选择性募集还原型 FNIP1。FNIP1 的泛素化受到 BEX 家族假底物抑制剂的调控，这些抑制剂可防止 FNIP1 过早降解，以防止细胞中不必要的 ROS 积累。FEM1B 功能获得性突变和 BEX 缺失引起类似的发育综合征，表明锌依赖性还原性应激反应必须受到严格调控，以维持细胞和机体的内稳态。

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