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通过分子内p53模拟实现MDMX的自抑制

Autoinhibition of MDMX by intramolecular p53 mimicry.

作者信息

Chen Lihong, Borcherds Wade, Wu Shaofang, Becker Andreas, Schonbrunn Ernst, Daughdrill Gary W, Chen Jiandong

机构信息

Departments of Molecular Oncology and.

Department of Cell Biology, Microbiology, and Molecular Biology and Center for Drug Discovery and Innovation, University of South Florida, Tampa, FL 33612.

出版信息

Proc Natl Acad Sci U S A. 2015 Apr 14;112(15):4624-9. doi: 10.1073/pnas.1420833112. Epub 2015 Mar 30.

DOI:10.1073/pnas.1420833112
PMID:25825738
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4403185/
Abstract

The p53 inhibitor MDMX is controlled by multiple stress signaling pathways. Using a proteolytic fragment release (PFR) assay, we detected an intramolecular interaction in MDMX that mechanistically mimics the interaction with p53, resulting in autoinhibition of MDMX. This mimicry is mediated by a hydrophobic peptide located in a long disordered central segment of MDMX that has sequence similarity to the p53 transactivation domain. NMR spectroscopy was used to show this hydrophobic peptide interacts with the N-terminal domain of MDMX in a structurally analogous manner to p53. Mutation of two critical tryptophan residues in the hydrophobic peptide disrupted the intramolecular interaction and increased p53 binding, providing further evidence for mechanistic mimicry. The PFR assay also revealed a second intramolecular interaction between the RING domain and central region that regulates MDMX nuclear import. These results establish the importance of intramolecular interactions in MDMX regulation, and validate a new assay for the study of intramolecular interactions in multidomain proteins with intrinsically disordered regions.

摘要

p53抑制剂MDMX受多种应激信号通路调控。我们通过蛋白水解片段释放(PFR)分析,在MDMX中检测到一种分子内相互作用,其机制模拟了与p53的相互作用,导致MDMX的自抑制。这种模拟由位于MDMX长无序中央区段的疏水肽介导,该疏水肽与p53反式激活结构域具有序列相似性。利用核磁共振光谱表明,这种疏水肽以与p53结构类似的方式与MDMX的N端结构域相互作用。疏水肽中两个关键色氨酸残基的突变破坏了分子内相互作用并增加了p53结合,为机制模拟提供了进一步证据。PFR分析还揭示了RING结构域与中央区域之间的第二种分子内相互作用,该相互作用调节MDMX的核输入。这些结果确立了分子内相互作用在MDMX调控中的重要性,并验证了一种用于研究具有内在无序区域的多结构域蛋白中分子内相互作用的新分析方法。

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