Litcius/Paper detail

HSB-1/HSF-1 pathway modulates histone H4 in mitochondria to control mtDNA transcription and longevity

Surojit Sural, Chung‐Yi Liang, Feng‐Yung Wang, Tsui‐Ting Ching, Ao‐Lin Hsu

2020Science Advances41 citationsDOIOpen Access PDF

Abstract

Here, we found that increased HSF-1 activity elevates histone H4 levels in somatic tissues during development, while knockdown of H4 completely suppresses HSF-1-mediated longevity. Moreover, overexpression of H4 is sufficient to extend life span. Ablation of HSB-1 induces an H4-dependent increase in micrococcal nuclease protection of both nuclear chromatin and mitochondrial DNA (mtDNA), which consequently results in reduced transcription of mtDNA-encoded complex IV genes, decreased respiratory capacity, and a mitochondrial unfolded protein response-dependent life-span extension. Collectively, our findings reveal a previously unknown role of HSB-1/HSF-1 signaling in modulation of mitochondrial function via mediating histone H4-dependent regulation of mtDNA gene expression and concomitantly acting as a determinant of organismal longevity.

Topics & Concepts

LongevityRegulatorTranscription factorHeat shock factorBiologyHistoneHeat shock proteinCell biologyMaster regulatorGeneticsCaenorhabditis elegansHSF1MitochondrionHsp70DNAGeneGenetics, Aging, and Longevity in Model OrganismsHeat shock proteins researchSpaceflight effects on biology
HSB-1/HSF-1 pathway modulates histone H4 in mitochondria to control mtDNA transcription and longevity | Litcius