PERK的急性消融导致内质网功能障碍，随后胰岛素分泌减少和细胞增殖降低。

Acute ablation of PERK results in ER dysfunctions followed by reduced insulin secretion and cell proliferation.

作者信息

Feng Daorong, Wei Jianwen, Gupta Sounak, McGrath Barbara C, Cavener Douglas R

机构信息

Department of Biology, Pennsylvania State University, University Park, PA 16802, USA.

出版信息

BMC Cell Biol. 2009 Sep 4;10:61. doi: 10.1186/1471-2121-10-61.

DOI:10.1186/1471-2121-10-61

PMID:19732428

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2749809/

Abstract

BACKGROUND

A deficiency in Perk (EIF2AK3) causes multiple neonatal defects in humans known as the Wolcott Rallison syndrome. Perk KO mice exhibit the same array of defects including permanent neonatal diabetes (PND). PND in mice was previously shown by us to be due to a decrease in beta cell proliferation and insulin secretion. The aim of this study was to determine if acute ablation of PERK in the 832/13 beta cells recapitulates these defects and to identify the primary molecular basis for beta cell dysfunction.

RESULTS

The INS1 832/13 transformed rat beta cell line was transduced with a dominant-negative Perk transgene via an adenoviral vector. AdDNPerk-832/13 beta cells exhibited reduced expression of insulin and MafA mRNAs, reduced insulin secretion, and reduced cell proliferation. Although proinsulin content was reduced in AdDNPerk-832/13 beta cells, proinsulin was abnormally retained in the endoplasmic reticulum. A temporal study of the acute ablation of Perk revealed that the earliest defect seen was induced expression of two ER chaperone proteins, GRP78/BiP and ERp72. The oxidized states of ERp72 and ERp57 were also increased suggesting an imbalance in the redox state of the ER.

CONCLUSION

Acute ablation of Perk in INS 832/13 beta cells exhibited all of the major defects seen in Perk KO mice and revealed abnormal expression and redox state of key ER chaperone proteins. Dysregulation of ER chaperone/folding enzymes ERp72 and GRP78/BiP occurred early after ablation of PERK function suggesting that changes in ER secretory functions may give rise to the other defects including reduced insulin gene expression, secretion, and cell proliferation.

摘要

背景

PERK（EIF2AK3）缺乏会导致人类出现多种新生儿缺陷，即沃尔科特 - 拉利森综合征。PERK基因敲除小鼠表现出相同的一系列缺陷，包括永久性新生儿糖尿病（PND）。我们之前发现小鼠的PND是由于β细胞增殖和胰岛素分泌减少所致。本研究的目的是确定在832/13β细胞中急性去除PERK是否会重现这些缺陷，并确定β细胞功能障碍的主要分子基础。

结果

通过腺病毒载体将显性负性Perk转基因导入INS1 832/13转化的大鼠β细胞系。AdDNPerk - 832/13β细胞表现出胰岛素和MafA mRNA表达降低、胰岛素分泌减少以及细胞增殖减少。尽管AdDNPerk - 832/13β细胞中的胰岛素原含量降低，但胰岛素原异常保留在内质网中。对Perk急性去除的时间研究表明，最早出现的缺陷是两种内质网伴侣蛋白GRP78/BiP和ERp72的诱导表达。ERp72和ERp57的氧化状态也增加，表明内质网氧化还原状态失衡。

结论

INS 832/13β细胞中Perk的急性去除表现出PERK基因敲除小鼠中所见的所有主要缺陷，并揭示了关键内质网伴侣蛋白的异常表达和氧化还原状态。PERK功能去除后早期就出现了内质网伴侣/折叠酶ERp72和GRP78/BiP的失调，这表明内质网分泌功能的变化可能导致其他缺陷，包括胰岛素基因表达、分泌和细胞增殖减少。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/52b7/2749809/9b5c2ab7de86/1471-2121-10-61-1.jpg

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Endocrinology. 2008 Aug;149(8):3832-41. doi: 10.1210/en.2008-0015. Epub 2008 May 1.

Neonatal diabetes mellitus.新生儿糖尿病

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PERK的急性消融导致内质网功能障碍，随后胰岛素分泌减少和细胞增殖降低。

Acute ablation of PERK results in ER dysfunctions followed by reduced insulin secretion and cell proliferation.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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