首次对靶向DFG-in和DFG-out结合模式的MAPK13抑制剂进行全面的结构和生物物理分析。

First comprehensive structural and biophysical analysis of MAPK13 inhibitors targeting DFG-in and DFG-out binding modes.

作者信息

Yurtsever Zeynep, Patel Dhara A, Kober Daniel L, Su Alvin, Miller Chantel A, Romero Arthur G, Holtzman Michael J, Brett Tom J

机构信息

Division of Pulmonary and Critical Care Medicine, Department of Medicine, Washington University School of Medicine, St. Louis, MO 63110, United States; Biochemistry Program, Washington University School of Medicine, St. Louis, MO 63110, United States; Center for the Investigation of Membrane Excitability Diseases, Washington University School of Medicine, St. Louis, MO 63110, United States.

Division of Pulmonary and Critical Care Medicine, Department of Medicine, Washington University School of Medicine, St. Louis, MO 63110, United States.

出版信息

Biochim Biophys Acta. 2016 Nov;1860(11 Pt A):2335-2344. doi: 10.1016/j.bbagen.2016.06.023. Epub 2016 Jun 29.

DOI:10.1016/j.bbagen.2016.06.023

PMID:27369736

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5011001/

Abstract

BACKGROUND

P38 MAP kinases are centrally involved in mediating extracellular signaling in various diseases. While much attention has previously been focused on the ubiquitously expressed family member MAPK14 (p38α), recent studies indicate that family members such as MAPK13 (p38δ) display a more selective cellular and tissue expression and might therefore represent a specific kinase to target in certain diseases.

METHODS

To facilitate the design of potent and specific inhibitors, we present here the structural, biophysical, and functional characterization of two new MAPK13-inhibitor complexes, as well as the first comprehensive structural, biophysical, and functional analysis of MAPK13 complexes with four different inhibitor compounds of greatly varying potency.

RESULTS

These inhibitors display IC50 values either in the nanomolar range or micromolar range (>800-fold range). The nanomolar inhibitors exhibit much longer ligand-enzyme complex half-lives compared to the micromolar inhibitors as measured by biolayer interferometry. Crystal structures of the MAPK13 inhibitor complexes reveal that the nanomolar inhibitors engage MAPK13 in the DFG-out binding mode, while the micromolar inhibitors are in the DFG-in mode. Detailed structural and computational docking analyses suggest that this difference in binding mode engagement is driven by conformational restraints imposed by the chemical structure of the inhibitors, and may be fortified by an additional hydrogen bond to MAPK13 in the nanomolar inhibitors.

CONCLUSIONS

These studies provide a structural basis for understanding the differences in potency exhibited by these inhibitors.

GENERAL SIGNIFICANCE

They also provide the groundwork for future studies to improve specificity, potency, pharmacodynamics, and pharmacokinetic properties.

摘要

背景

p38丝裂原活化蛋白激酶在介导多种疾病的细胞外信号传导中起核心作用。此前，人们大多关注广泛表达的家族成员MAPK14（p38α），但最近的研究表明，诸如MAPK13（p38δ）等家族成员表现出更具选择性的细胞和组织表达，因此可能是某些疾病中可靶向的特定激酶。

方法

为便于设计强效且特异的抑制剂，我们在此展示了两种新型MAPK13抑制剂复合物的结构、生物物理及功能特征，以及对MAPK13与四种不同效力的抑制剂化合物形成的复合物进行的首次全面结构、生物物理及功能分析。

结果

这些抑制剂的半数抑制浓度（IC50）值处于纳摩尔范围或微摩尔范围（相差>800倍）。通过生物膜干涉术测量，与微摩尔抑制剂相比，纳摩尔抑制剂的配体-酶复合物半衰期长得多。MAPK13抑制剂复合物的晶体结构表明，纳摩尔抑制剂以DFG-out结合模式与MAPK13结合，而微摩尔抑制剂则处于DFG-in模式。详细的结构和计算对接分析表明，这种结合模式的差异是由抑制剂化学结构施加的构象限制驱动的，并且可能因纳摩尔抑制剂中与MAPK13额外形成的氢键而得到加强。

结论

这些研究为理解这些抑制剂表现出的效力差异提供了结构基础。

普遍意义

它们也为未来改善特异性、效力、药效学和药代动力学性质的研究奠定了基础。

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