热休克蛋白90塑造人类遗传变异的后果。

HSP90 Shapes the Consequences of Human Genetic Variation.

作者信息

Karras Georgios I, Yi Song, Sahni Nidhi, Fischer Máté, Xie Jenny, Vidal Marc, D'Andrea Alan D, Whitesell Luke, Lindquist Susan

机构信息

Whitehead Institute for Biomedical Research, Cambridge, MA 02142, USA.

Center for Cancer Systems Biology (CCSB), Dana-Farber Cancer Institute, Boston, MA 02215, USA; Department of Genetics, Harvard Medical School, Boston, MA 02115, USA.

出版信息

Cell. 2017 Feb 23;168(5):856-866.e12. doi: 10.1016/j.cell.2017.01.023. Epub 2017 Feb 16.

DOI:10.1016/j.cell.2017.01.023

PMID:28215707

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5325763/

Abstract

HSP90 acts as a protein-folding buffer that shapes the manifestations of genetic variation in model organisms. Whether HSP90 influences the consequences of mutations in humans, potentially modifying the clinical course of genetic diseases, remains unknown. By mining data for >1,500 disease-causing mutants, we found a strong correlation between reduced phenotypic severity and a dominant (HSP90 ≥ HSP70) increase in mutant engagement by HSP90. Examining the cancer predisposition syndrome Fanconi anemia in depth revealed that mutant FANCA proteins engaged predominantly by HSP70 had severely compromised function. In contrast, the function of less severe mutants was preserved by a dominant increase in HSP90 binding. Reducing HSP90's buffering capacity with inhibitors or febrile temperatures destabilized HSP90-buffered mutants, exacerbating FA-related chemosensitivities. Strikingly, a compensatory FANCA somatic mutation from an "experiment of nature" in monozygotic twins both prevented anemia and reduced HSP90 binding. These findings provide one plausible mechanism for the variable expressivity and environmental sensitivity of genetic diseases.

摘要

热休克蛋白90（HSP90）作为一种蛋白质折叠缓冲剂，塑造了模式生物中遗传变异的表现形式。HSP90是否会影响人类突变的后果，从而潜在地改变遗传疾病的临床进程，目前尚不清楚。通过挖掘1500多个致病突变体的数据，我们发现表型严重程度降低与HSP90对突变体结合的显性增加（HSP90≥HSP70）之间存在很强的相关性。深入研究范可尼贫血这一癌症易感综合征发现，主要由HSP70结合的突变型范可尼贫血互补组A（FANCA）蛋白功能严重受损。相比之下，不太严重的突变体的功能通过HSP90结合的显性增加得以保留。用抑制剂或发热温度降低HSP90的缓冲能力会使HSP90缓冲的突变体不稳定，加剧与范可尼贫血相关的化学敏感性。引人注目的是，一对同卵双胞胎中来自“自然实验”的补偿性FANCA体细胞突变既预防了贫血，又减少了HSP90的结合。这些发现为遗传疾病的可变表达性和环境敏感性提供了一种合理的机制。

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