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恢复B因子:激活的ALK突变增加未磷酸化激酶的蛋白质动力学

Reviving B-Factors: Activating ALK Mutations Increase Protein Dynamics of the Unphosphorylated Kinase.

作者信息

Johnson Ted W, Bolanos Ben, Brooun Alexei, Gallego Rebecca A, Gehlhaar Dan, Jalaie Mehran, McTigue Michele, Timofeevski Sergei

机构信息

Pfizer Worldwide Research and Development, La Jolla Oncology, 10770 Science Center Drive, San Diego, California 92121, United States.

出版信息

ACS Med Chem Lett. 2018 Aug 24;9(9):872-877. doi: 10.1021/acsmedchemlett.8b00348. eCollection 2018 Sep 13.

DOI:10.1021/acsmedchemlett.8b00348
PMID:30258533
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6142052/
Abstract

Anaplastic lymphoma kinase (ALK) is a receptor tyrosine kinase that can become oncogenic by activating mutations or overexpression. Full kinetic characterization of both phosphorylated and nonphosphorylated wildtype and mutant ALK kinase domain was done. Our structure-based drug design programs directed at ALK allowed us to interrogate whether X-ray crystallography data could be used to support the hypothesis that activation of ALK by mutation occurs due to increased protein dynamics. Crystallographic B-factors were converted to normalized B-factors, which allowed analysis of wildtype ALK, ALK-C1156Y, and ALK-L1196M. This data suggests that mobility of the P-loop, αC-helix, and activation loop (A-loop) may be important in catalytic activity increases, with or without phosphorylation. Both molecular dynamics simulations and hydrogen-deuterium exchange experimental data corroborated the normalized B-factors data.

摘要

间变性淋巴瘤激酶(ALK)是一种受体酪氨酸激酶,可通过激活突变或过表达而致癌。对磷酸化和非磷酸化的野生型及突变型ALK激酶结构域进行了完整的动力学表征。我们针对ALK的基于结构的药物设计程序使我们能够探究X射线晶体学数据是否可用于支持以下假设:ALK因突变而激活是由于蛋白质动力学增加所致。将晶体学B因子转换为归一化B因子,从而能够分析野生型ALK、ALK-C1156Y和ALK-L1196M。该数据表明,无论有无磷酸化,P环、αC螺旋和激活环(A环)的流动性可能对催化活性的增加很重要。分子动力学模拟和氢-氘交换实验数据均证实了归一化B因子数据。

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