鉴定 MLH1-PMS2 界面中干扰二聚体形成和错配修复的 Lynch 综合征突变。

Identification of Lynch syndrome mutations in the MLH1-PMS2 interface that disturb dimerization and mismatch repair.

机构信息

Laboratory of Bioinformatics and Protein Engineering, International Institute of Molecular and Cell Biology, Warsaw, Poland.

出版信息

Hum Mutat. 2010 Aug;31(8):975-82. doi: 10.1002/humu.21301.

DOI:10.1002/humu.21301

PMID:20533529

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2908215/

Abstract

Missense alterations of the mismatch repair gene MLH1 have been identified in a significant proportion of individuals suspected of having Lynch syndrome, a hereditary syndrome that predisposes for cancer of colon and endometrium. The pathogenicity of many of these alterations, however, is unclear. A number of MLH1 alterations are located in the C-terminal domain (CTD) of MLH1, which is responsible for constitutive dimerization with PMS2. We analyzed which alterations may result in pathogenic effects due to interference with dimerization. We used a structural model of CTD of MLH1-PMS2 heterodimer to select 19 MLH1 alterations located inside and outside two candidate dimerization interfaces in the MLH1-CTD. Three alterations (p.Gln542Leu, p.Leu749Pro, p.Tyr750X) caused decreased coexpression of PMS2, which is unstable in the absence of interaction with MLH1, suggesting that these alterations interfere with dimerization. All three alterations are located within the dimerization interface suggested by our model. They also compromised mismatch repair, suggesting that defects in dimerization abrogate repair and confirming that all three alterations are pathogenic. Additionally, we provided biochemical evidence that four alterations with uncertain pathogenicity (p.Ala586Pro, p.Leu636Pro, p.Thr662Pro, and p.Arg755Trp) are deleterious because of poor expression or poor repair efficiency, and confirm the deleterious effect of eight further alterations.

摘要

错义突变的错配修复基因 MLH1 已被确定在一个相当大的一部分人怀疑患有林奇综合征，一种遗传性疾病，易患结肠癌和子宫内膜癌。然而，许多这些改变的致病性尚不清楚。许多 MLH1 改变位于 MLH1 的 C 末端结构域（CTD），负责与 PMS2 组成型二聚化。我们分析了哪些改变可能由于干扰二聚化而导致致病性效应。我们使用 MLH1-PMS2 异二聚体的 CTD 结构模型来选择位于 MLH1-CTD 中两个候选二聚化界面内和外的 19 个 MLH1 改变。三种改变（p.Gln542Leu、p.Leu749Pro、p.Tyr750X）导致 PMS2 的共表达减少，在没有与 MLH1 相互作用的情况下，PMS2 是不稳定的，这表明这些改变干扰了二聚化。所有三种改变都位于我们模型所建议的二聚化界面内。它们还损害了错配修复，这表明二聚化缺陷会破坏修复，并证实所有三种改变都是致病性的。此外，我们提供了生化证据表明，四个致病性不确定的改变（p.Ala586Pro、p.Leu636Pro、p.Thr662Pro 和 p.Arg755Trp）由于表达不良或修复效率低下而具有危害性，并证实了另外八个改变的危害性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d3e5/2908215/f54d81a9e8b2/nihms212166f1.jpg

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