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A safety mechanism enables tissue-specific resistance to protein aggregation during aging in C. elegans

Raimund Jung, Marie C. Lechler, Ana Fernández‐Villegas, Chyi Wei Chung, Harry C. Jones, Yoon Hee Choi, Maximillian A. Thompson, Christian Rödelsperger, Waltraud Röseler, Gabriele S. Kaminski Schierle, Ralf J. Sommer, Della David

2023PLoS Biology15 citationsDOIOpen Access PDF

Abstract

During aging, proteostasis capacity declines and distinct proteins become unstable and can accumulate as protein aggregates inside and outside of cells. Both in disease and during aging, proteins selectively aggregate in certain tissues and not others. Yet, tissue-specific regulation of cytoplasmic protein aggregation remains poorly understood. Surprisingly, we found that the inhibition of 3 core protein quality control systems, namely chaperones, the proteasome, and macroautophagy, leads to lower levels of age-dependent protein aggregation in Caenorhabditis elegans pharyngeal muscles, but higher levels in body-wall muscles. We describe a novel safety mechanism that selectively targets newly synthesized proteins to suppress their aggregation and associated proteotoxicity. The safety mechanism relies on macroautophagy-independent lysosomal degradation and involves several previously uncharacterized components of the intracellular pathogen response (IPR). We propose that this protective mechanism engages an anti-aggregation machinery targeting aggregating proteins for lysosomal degradation.

Topics & Concepts

ProteotoxicityProteostasisBiologyProtein aggregationCaenorhabditis elegansCell biologyProteasomeProtein degradationMechanism (biology)Protein foldingCytoplasmBiochemistryGenePhilosophyEpistemologyGenetics, Aging, and Longevity in Model OrganismsAutophagy in Disease and TherapyEndoplasmic Reticulum Stress and Disease
A safety mechanism enables tissue-specific resistance to protein aggregation during aging in C. elegans | Litcius