Defining the Essential Function of Yeast Hsf1 Reveals a Compact Transcriptional Program for Maintaining Eukaryotic Proteostasis
In: Solis, Eric John. 2016. Defining the Essential Function of Yeast Hsf1 Reveals a Compact Transcriptional Program for Maintaining Eukaryotic Proteostasis. Doctoral dissertation, Harvard University, Graduate School of Arts & Sciences.; (2016-05-01)
Online
Hochschulschrift
Zugriff:
Despite its eponymous association with proteotoxic stress, heat shock factor 1 (Hsf1 in yeast and HSF1 in mammals) is required for viability of yeast and many human cancer cells, yet its essential role remains undefined. Here we show that rapid nuclear export of Hsf1 achieved in a matter of minutes by a chemical genetics approach results in cell growth arrest in a matter of hours, which was associated with massive protein aggregation and eventual cell death. Genome-wide analyses of immediate gene expression changes induced by Hsf1 nuclear export revealed a basal transcriptional program comprising 18 genes, predominately encoding chaperones and other proteostasis factors. During heat shock, Hsf1 increases the magnitude of its transcriptional program without expanding its breadth. Strikingly, engineered Hsf1-independent co-expression of just Hsp70 and Hsp90 chaperones enabled robust cell growth in the complete absence of Hsf1. A comparative genomic analysis of mammalian fibroblasts and embryonic stem cells revealed that HSF1 lacks a basal transcriptional program but still regulates a similar set of chaperone genes during heat shock. Our work demonstrates that basal chaperone gene expression is a housekeeping mechanism controlled by Hsf1 in yeast and serves as a roadmap for defining the housekeeping function of HSF1 in many cancers. Finally, we investigate the mechanism causing age-associated inactivation of Hsf1 during replicative aging in budding yeast. Using classic and chemical-genetic tools, we demonstrate that inactivation is due to constitutive activation of the distinct General Stress Response. These experiments reveal that stress pathway crosstalk inhibits Hsf1 activation during replicative aging and under physiological stress in young cells.
Systems Biology
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Defining the Essential Function of Yeast Hsf1 Reveals a Compact Transcriptional Program for Maintaining Eukaryotic Proteostasis
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Autor/in / Beteiligte Person: | Solis, Eric John ; Murray, Andrew |
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Quelle: | Solis, Eric John. 2016. Defining the Essential Function of Yeast Hsf1 Reveals a Compact Transcriptional Program for Maintaining Eukaryotic Proteostasis. Doctoral dissertation, Harvard University, Graduate School of Arts & Sciences.; (2016-05-01) |
Veröffentlichung: | Harvard University, 2016 |
Medientyp: | Hochschulschrift |
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