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Mechanism and consequence of the autoactivation of p38α mitogen-activated protein kinase promoted by TAB1.

Nature structural & molecular biology (2013-09-17)
Gian Felice DeNicola, Eva Denise Martin, Apirat Chaikuad, Rekha Bassi, James Clark, Luigi Martino, Sharwari Verma, Pierre Sicard, Renée Tata, R Andrew Atkinson, Stefan Knapp, Maria R Conte, Michael S Marber
RESUMEN

p38α mitogen-activated protein kinase (p38α) is activated by a variety of mechanisms, including autophosphorylation initiated by TGFβ-activated kinase 1 binding protein 1 (TAB1) during myocardial ischemia and other stresses. Chemical-genetic approaches and coexpression in mammalian, bacterial and cell-free systems revealed that mouse p38α autophosphorylation occurs in cis by direct interaction with TAB1(371-416). In isolated rat cardiac myocytes and perfused mouse hearts, TAT-TAB1(371-416) rapidly activates p38 and profoundly perturbs function. Crystal structures and characterization in solution revealed a bipartite docking site for TAB1 in the p38α C-terminal kinase lobe. TAB1 binding stabilizes active p38α and induces rearrangements within the activation segment by helical extension of the Thr-Gly-Tyr motif, allowing autophosphorylation in cis. Interference with p38α recognition by TAB1 abolishes its cardiac toxicity. Such intervention could potentially circumvent the drawbacks of clinical pharmacological inhibitors of p38 catalytic activity.

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Anti-p38 MAP Kinase, Activated (Diphosphorylated p38) antibody, Mouse monoclonal, clone P38-TY, purified from hybridoma cell culture, buffered aqueous solution