p38α Kinase Auto-Activation through Its Conformational Transition Induced by Tyr323 Phosphorylation

Autor: Yongjian Zang, He Wang, Dongxiao Hao, Ying Kang, Jianwen Zhang, Xuhua Li, Lei Zhang, Zhiwei Yang, Shengli Zhang
Rok vydání: 2022
Předmět:
Zdroj: Journal of Chemical Information and Modeling. 62:6639-6648
ISSN: 1549-960X
1549-9596
DOI: 10.1021/acs.jcim.2c00236
Popis: p38α is a key serine/threonine kinase that can enable atypical auto-activation through Zap70 phosphorylation and initiate T cell receptor signaling. The auto-activation plays an important role in autoimmune diseases. Although the classical activation mechanism of p38α has been studied in-depth, the atypical activation mechanism of Y323 phosphorylation-induced p38α auto-activation remains largely unexplained, especially the regulatory effects of phosphorylation on different sites (Y323 vs T180). From the X-ray experimental data, we identified the inactive and active states of p38α using principal component analysis. To understand the auto-activation process and the internal driving mechanism, a computational paradigm that couples the targeted molecular dynamics simulations, the String Method, and the umbrella sampling strategy were employed to generate the conformational landscape of p38α, including p38α T180-Y323, p38α T180-pY323, and p38α pT180-pY323 systems (pT180/pY323: phosphorylated T180/Y323). We explored that pY323 could change the conformational distribution and promote the conformational transition of p38α from the inactive state to the active state. Auto-activation of p38α is regulated by pY323 through destabilization of the hydrophobic core structure and aided by R173. This study will further explain the conformational transition of p38α induced by Y323 phosphorylation and provide insights into the universal molecular auto-activation mechanism of the p38 subfamily at the atomic level.
Databáze: OpenAIRE