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本文引用的文献

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The ER Stress Sensor PERK Coordinates ER-Plasma Membrane Contact Site Formation through Interaction with Filamin-A and F-Actin Remodeling.内质网应激传感器 PERK 通过与细丝蛋白 A 相互作用并重塑 F-肌动蛋白来协调内质网-质膜接触位点的形成。
Mol Cell. 2017 Mar 2;65(5):885-899.e6. doi: 10.1016/j.molcel.2017.01.020. Epub 2017 Feb 23.
2
A Multiplexed Single-Cell CRISPR Screening Platform Enables Systematic Dissection of the Unfolded Protein Response.一个多重单细胞CRISPR筛选平台能够对未折叠蛋白反应进行系统剖析。
Cell. 2016 Dec 15;167(7):1867-1882.e21. doi: 10.1016/j.cell.2016.11.048.
3
Physiological modulation of BiP activity by trans-protomer engagement of the interdomain linker.通过结构域间连接子的反式原体结合对BiP活性进行生理调节。
Elife. 2015 Oct 16;4:e08961. doi: 10.7554/eLife.08961.
4
ARTC1-mediated ADP-ribosylation of GRP78/BiP: a new player in endoplasmic-reticulum stress responses.ARTC1介导的GRP78/BiP的ADP核糖基化:内质网应激反应中的新角色
Cell Mol Life Sci. 2015 Mar;72(6):1209-25. doi: 10.1007/s00018-014-1745-6. Epub 2014 Oct 8.
5
Microscopic and ultrastructural features in Wolcott-Rallison syndrome, a permanent neonatal diabetes mellitus: about two autopsy cases.沃尔科特-拉利森综合征(一种永久性新生儿糖尿病)的微观和超微结构特征:两例尸检病例报告
Pediatr Diabetes. 2015 Nov;16(7):510-20. doi: 10.1111/pedi.12201. Epub 2014 Aug 18.
6
ATP increases within the lumen of the endoplasmic reticulum upon intracellular Ca2+ release.细胞内钙离子释放会导致内质网腔中 ATP 含量增加。
Mol Biol Cell. 2014 Feb;25(3):368-79. doi: 10.1091/mbc.E13-07-0433. Epub 2013 Dec 4.
7
Insulin secretion and Ca2+ dynamics in β-cells are regulated by PERK (EIF2AK3) in concert with calcineurin.β细胞中的胰岛素分泌和 Ca2+ 动力学受 PERK(EIF2AK3)与钙调神经磷酸酶的协同调节。
J Biol Chem. 2013 Nov 22;288(47):33824-33836. doi: 10.1074/jbc.M113.503664. Epub 2013 Oct 10.
8
Hsp70 oligomerization is mediated by an interaction between the interdomain linker and the substrate-binding domain.Hsp70 的寡聚化是通过结构域间连接区与底物结合结构域之间的相互作用介导的。
PLoS One. 2013 Jun 28;8(6):e67961. doi: 10.1371/journal.pone.0067961. Print 2013.
9
Molecular chaperone functions in protein folding and proteostasis.分子伴侣在蛋白质折叠和蛋白稳态中的功能。
Annu Rev Biochem. 2013;82:323-55. doi: 10.1146/annurev-biochem-060208-092442.
10
SDF2L1 interacts with the ER-associated degradation machinery and retards the degradation of mutant proinsulin in pancreatic β-cells.SDF2L1 与内质网相关降解机制相互作用,延缓了胰腺β细胞中突变前胰岛素的降解。
J Cell Sci. 2013 May 1;126(Pt 9):1962-8. doi: 10.1242/jcs.117374. Epub 2013 Feb 26.

蛋白激酶 PERK/EIF2AK3 通过控制内质网伴侣蛋白而非通过蛋白质合成来调节胰岛素原的加工。

The protein kinase PERK/EIF2AK3 regulates proinsulin processing not via protein synthesis but by controlling endoplasmic reticulum chaperones.

机构信息

From the Department of Biology, Penn State University, University Park, Pennsylvania 16802.

the Department of Molecular and Cellular Biology, Research Centre for Infectious Diseases, University of Adelaide, Adelaide 5005, Australia.

出版信息

J Biol Chem. 2018 Apr 6;293(14):5134-5149. doi: 10.1074/jbc.M117.813790. Epub 2018 Feb 14.

DOI:10.1074/jbc.M117.813790
PMID:29444822
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5892574/
Abstract

Loss-of-function mutations of the protein kinase PERK (EIF2AK3) in humans and mice cause permanent neonatal diabetes and severe proinsulin aggregation in the endoplasmic reticulum (ER), highlighting the essential role of PERK in insulin production in pancreatic β cells. As PERK is generally known as a translational regulator of the unfolded protein response (UPR), the underlying cause of these β cell defects has often been attributed to derepression of proinsulin synthesis, resulting in proinsulin overload in the ER. Using high-resolution imaging and standard protein fractionation and immunological methods we have examined the PERK-dependent phenotype more closely. We found that whereas proinsulin aggregation requires new protein synthesis, global protein and proinsulin synthesis are down-regulated in PERK-inhibited cells, strongly arguing against proinsulin overproduction being the root cause of their aberrant ER phenotype. Furthermore, we show that PERK regulates proinsulin proteostasis by modulating ER chaperones, including BiP and ERp72. Transgenic overexpression of BiP and BiP knockdown (KD) both promoted proinsulin aggregation, whereas ERp72 overexpression and knockdown rescued it. These findings underscore the importance of ER chaperones working in concert to achieve control of insulin production and identify a role for PERK in maintaining a functional balance among these chaperones.

摘要

蛋白激酶 PERK(EIF2AK3)的功能丧失性突变会导致人类和小鼠的永久性新生儿糖尿病和内质网(ER)中严重的胰岛素原聚集,这凸显了 PERK 在胰腺β细胞胰岛素产生中的重要作用。由于 PERK 通常被认为是未折叠蛋白反应(UPR)的翻译调节剂,这些β细胞缺陷的根本原因通常归因于胰岛素原合成的去抑制,导致 ER 中胰岛素原过载。我们使用高分辨率成像和标准蛋白质分级分离和免疫方法更仔细地检查了 PERK 依赖性表型。我们发现,虽然胰岛素原聚集需要新的蛋白质合成,但 PERK 抑制细胞中的总蛋白和胰岛素原合成下调,强烈反对胰岛素原过度产生是其异常 ER 表型的根本原因。此外,我们表明 PERK 通过调节 ER 伴侣,包括 BiP 和 ERp72,来调节胰岛素原的稳态。BiP 的转基因过表达和 BiP 的 knockdown(KD)都促进了胰岛素原的聚集,而 ERp72 的过表达和 knockdown 则挽救了它。这些发现强调了 ER 伴侣协同工作以实现胰岛素产生控制的重要性,并确定了 PERK 在维持这些伴侣之间功能平衡中的作用。