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帕金森病的G2385R风险因素增强了CHIP依赖的LRRK2细胞内降解。

The G2385R risk factor for Parkinson's disease enhances CHIP-dependent intracellular degradation of LRRK2.

作者信息

Rudenko Iakov N, Kaganovich Alice, Langston Rebekah G, Beilina Aleksandra, Ndukwe Kelechi, Kumaran Ravindran, Dillman Allissa A, Chia Ruth, Cookson Mark R

机构信息

Cell Biology and Gene Expression Section, Laboratory of Neurogenetics, National Institute on Aging, NIH, 35 Convent Drive, Room 1A-116, Bethesda, MD 20892-3707, U.S.A.

出版信息

Biochem J. 2017 Apr 24;474(9):1547-1558. doi: 10.1042/BCJ20160909.

DOI:10.1042/BCJ20160909
PMID:28320779
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6178381/
Abstract

Autosomal dominant mutations in () are associated with Parkinson's disease (PD). Most pathogenic mutations result in amino acid substitutions in the central ROC (Ras of complex proteins)-C-terminus of ROC-kinase triple domain and affect enzymatic functions of the protein. However, there are several variants in , including the risk factor G2385R, that affect PD pathogenesis by unknown mechanisms. Previously, we have shown that G2385R LRRK2 has decreased kinase activity and altered affinity to LRRK2 interactors. Specifically, we found an increased binding to the chaperone Hsp90 (heat shock protein 90 kDa) that is known to stabilize LRRK2, suggesting that G2385R may have structural effects on LRRK2. In the present study, we further explored the effects of G2385R on LRRK2 in cells. We found that G2385R LRRK2 has lower steady-state intracellular protein levels compared with wild-type LRRK2 due to increased protein turnover of the mutant protein. Mechanistically, this is a consequence of a higher affinity of G2385R compared with the wild-type protein for two proteins involved in proteasomal degradation, Hsc70 and carboxyl-terminus of Hsc70-interacting protein (CHIP). Overexpression of CHIP decreased intracellular protein levels of both G2385R mutant and wild-type LRRK2, while short interfering RNA CHIP knockdown had the opposite effect. We suggest that the G2385R substitution tilts the equilibrium between refolding and proteasomal degradation toward intracellular degradation. The observation of lower steady-state protein levels may explain why G2385R is a risk factor rather than a penetrant variant for inherited PD.

摘要

()中的常染色体显性突变与帕金森病(PD)相关。大多数致病性突变导致ROC(复杂蛋白质的Ras)-ROC激酶三联体结构域的中央C末端发生氨基酸替换,并影响该蛋白质的酶功能。然而,()中有几种变体,包括风险因子G2385R,其通过未知机制影响PD发病机制。此前,我们已表明G2385R LRRK2的激酶活性降低,且与LRRK2相互作用分子的亲和力发生改变。具体而言,我们发现与已知可稳定LRRK2的伴侣蛋白Hsp90(90 kDa热休克蛋白)的结合增加,这表明G2385R可能对LRRK2具有结构影响。在本研究中,我们进一步探究了G2385R在细胞中对LRRK2的影响。我们发现,与野生型LRRK2相比,G2385R LRRK2的细胞内稳态蛋白水平较低,这是由于突变蛋白的蛋白质周转率增加所致。从机制上讲,这是因为与野生型蛋白相比,G2385R对参与蛋白酶体降解的两种蛋白Hsc70和Hsc70相互作用蛋白的羧基末端(CHIP)具有更高的亲和力。CHIP的过表达降低了G2385R突变体和野生型LRRK2的细胞内蛋白水平,而短发夹RNA介导的CHIP敲低则产生相反的效果。我们认为,G2385R替换使重折叠与蛋白酶体降解之间的平衡向细胞内降解倾斜。细胞内稳态蛋白水平较低这一观察结果可能解释了为何G2385R是遗传性PD的风险因子而非显性变体。

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