Structural basis of a redox-dependent conformational switch that regulates the stress kinase p38α

TitleStructural basis of a redox-dependent conformational switch that regulates the stress kinase p38α
Publication TypeJournal Article
Year of Publication2023
AuthorsPous, Joan, Baginski Blazej, Martin-Malpartida Pau, González Lorena, Scarpa Margherita, Aragon Eric, Ruiz Lidia, Mees Rebeca A., Iglesias-Fernández Javier, Orozco Modesto, Nebreda Angel R., and Macias Maria J.
JournalNature Communications
Volume14
Issue1
Pagination7920
Date Published2023/12/01
ISBN Number2041-1723
Abstract

Many functional aspects of the protein kinase p38α have been illustrated by more than three hundred structures determined in the presence of reducing agents. These structures correspond to free forms and complexes with activators, substrates, and inhibitors. Here we report the conformation of an oxidized state with an intramolecular disulfide bond between Cys119 and Cys162 that is conserved in vertebrates. The structure of the oxidized state does not affect the conformation of the catalytic site, but alters the docking groove by partially unwinding and displacing the short αD helix due to the movement of Cys119 towards Cys162. The transition between oxidized and reduced conformations provides a mechanism for fine-tuning p38α activity as a function of redox conditions, beyond its activation loop phosphorylation. Moreover, the conformational equilibrium between these redox forms reveals an unexplored cleft for p38α inhibitor design that we describe in detail.

URLhttps://doi.org/10.1038/s41467-023-43763-5
Short TitleNature Communications
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