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HSF-1 promotes longevity through ubiquilin-1-dependent mitochondrial network remodelling

Annmary Paul Erinjeri, Xunyan Wang, Rhianna Williams, Riccardo Zenezini Chiozzi, Konstantinos Thalassinos, Johnathan Labbadia

2024Nature Communications14 citationsDOIOpen Access PDF

Abstract

Increased activity of the heat shock factor, HSF-1, suppresses proteotoxicity and enhances longevity. However, the precise mechanisms by which HSF-1 promotes lifespan are unclear. Using an RNAi screen, we identify ubiquilin-1 (ubql-1) as an essential mediator of lifespan extension in worms overexpressing hsf-1. We find that hsf-1 overexpression leads to transcriptional downregulation of all components of the CDC-48-UFD-1-NPL-4 complex, which is central to both endoplasmic reticulum and mitochondria associated protein degradation, and that this is complemented by UBQL-1-dependent turnover of NPL-4.1. As a consequence, mitochondrial network dynamics are altered, leading to increased lifespan. Together, our data establish that HSF-1 mediates lifespan extension through mitochondrial network adaptations that occur in response to down-tuning of components associated with organellar protein degradation pathways.

Topics & Concepts

Cell biologyEndoplasmic reticulumDownregulation and upregulationLongevityHSF1ProteotoxicityBiologyMitochondrionMediatorUnfolded protein responseHeat shock proteinHsp70GeneticsProtein aggregationGeneGenetics, Aging, and Longevity in Model OrganismsMitochondrial Function and PathologyHeat shock proteins research
HSF-1 promotes longevity through ubiquilin-1-dependent mitochondrial network remodelling | Litcius