Regulation of HSF1 transcriptional complexes under proteotoxic stress: Mechanisms of heat shock gene transcription involve the stress-induced HSF1 complex formation, changes in chromatin states, and formation of phase-separated condensates: Mechanisms of heat shock gene transcription involve the stress-induced HSF1 complex formation, changes in chromatin states, and formation of phase-separated condensates.

Abstract

Environmental, physiological, and pathological stimuli induce the misfolding of proteins, which results in the formation of aggregates and amyloid fibrils. To cope with proteotoxic stress, cells are equipped with adaptive mechanisms that are accompanied by changes in gene expression. The evolutionarily conserved mechanism called the heat shock response is characterized by the induction of a set of heat shock proteins (HSPs), and is mainly regulated by heat shock transcription factor 1 (HSF1) in mammals. We herein introduce the mechanisms by which HSF1 tightly controls the transcription of HSP genes via the regulation of pre-initiation complex recruitment in their promoters under proteotoxic stress. These mechanisms involve the stress-induced regulation of HSF1-transcription complex formation with a number of coactivators, changes in chromatin states, and the formation of phase-separated condensates through post-translational modifications.