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Modulating p38 MAPK signaling by proteostasis mechanisms supports tissue integrity during growth and aging

Yuan Wang, Yi M. Weaver, Svetlana Earnest, Clinton A. Taylor, Melanie H. Cobb, Benjamin P. Weaver

2023Nature Communications68 citationsDOIOpen Access PDF

Abstract

The conserved p38 MAPK family is activated by phosphorylation during stress responses and inactivated by phosphatases. C. elegans PMK-1 p38 MAPK initiates innate immune responses and blocks development when hyperactivated. Here we show that PMK-1 signaling is enhanced during early aging by modulating the stoichiometry of non-phospho-PMK-1 to promote tissue integrity and longevity. Loss of pmk-1 function accelerates progressive declines in neuronal integrity and lysosome function compromising longevity which has both cell autonomous and cell non-autonomous contributions. CED-3 caspase cleavage limits phosphorylated PMK-1. Enhancing p38 signaling with caspase cleavage-resistant PMK-1 protects lysosomal and neuronal integrity extending a youthful phase. PMK-1 works through a complex transcriptional program to regulate lysosome formation. During early aging, the absolute phospho-p38 amount is maintained but the reservoir of non-phospho-p38 diminishes to enhance signaling without hyperactivation. Our findings show that modulating the stoichiometry of non-phospho-p38 dynamically supports tissue-homeostasis during aging without hyper-activation of stress response.

Topics & Concepts

Cell biologyProteostasisPhosphorylationBiologyp38 mitogen-activated protein kinasesSignal transductionCell signalingCell fate determinationMAPK/ERK pathwayTranscription factorBiochemistryGeneGenetics, Aging, and Longevity in Model OrganismsCircadian rhythm and melatonin
Modulating p38 MAPK signaling by proteostasis mechanisms supports tissue integrity during growth and aging | Litcius