一种 PQM-1 介导的反应触发细胞间伴侣信号传递，并调节生物体的蛋白质稳态。

A PQM-1-Mediated Response Triggers Transcellular Chaperone Signaling and Regulates Organismal Proteostasis.

机构信息

School of Molecular and Cell Biology and Astbury Centre for Structural Molecular Biology, University of Leeds, Leeds, UK.

出版信息

Cell Rep. 2018 Jun 26;23(13):3905-3919. doi: 10.1016/j.celrep.2018.05.093.

DOI:10.1016/j.celrep.2018.05.093

PMID:29949773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6045774/

Abstract

In metazoans, tissues experiencing proteotoxic stress induce "transcellular chaperone signaling" (TCS) that activates molecular chaperones, such as hsp-90, in distal tissues. How this form of inter-tissue communication is mediated to upregulate systemic chaperone expression and whether it can be utilized to protect against protein misfolding diseases remain open questions. Using C. elegans, we identified key components of a systemic stress signaling pathway that links the innate immune response with proteostasis maintenance. We show that mild perturbation of proteostasis in the neurons or the intestine activates TCS via the GATA zinc-finger transcription factor PQM-1. PQM-1 coordinates neuron-activated TCS via the innate immunity-associated transmembrane protein CLEC-41, whereas intestine-activated TCS depends on the aspartic protease ASP-12. Both TCS pathways can induce hsp-90 in muscle cells and facilitate amelioration of Aβ-associated toxicity. This may have powerful implications for the treatment of diseases related to proteostasis dysfunction.

摘要

在后生动物中，经历蛋白毒性应激的组织会诱导“细胞间伴侣信号转导”（TCS），从而激活远端组织中的分子伴侣，如热休克蛋白 90（hsp-90）。这种组织间通讯形式如何介导全身伴侣蛋白表达的上调，以及它是否可用于预防蛋白错误折叠疾病，这些仍然是悬而未决的问题。我们利用秀丽隐杆线虫鉴定了一个系统应激信号通路的关键组成部分，该通路将先天免疫反应与蛋白稳态维持联系起来。我们发现，神经元或肠道中蛋白稳态的轻度扰动会通过 GATA 锌指转录因子 PQM-1 激活 TCS。PQM-1 通过先天免疫相关的跨膜蛋白 CLEC-41 协调神经元激活的 TCS，而肠道激活的 TCS 则依赖于天冬氨酸蛋白酶 ASP-12。这两种 TCS 途径都可以在肌肉细胞中诱导 hsp-90，并有助于改善 Aβ相关毒性。这可能对治疗与蛋白稳态功能障碍相关的疾病具有强大的意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4156/6045774/9a2ab5291dfe/fx1.jpg

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一种 PQM-1 介导的反应触发细胞间伴侣信号传递，并调节生物体的蛋白质稳态。

A PQM-1-Mediated Response Triggers Transcellular Chaperone Signaling and Regulates Organismal Proteostasis.

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