AI Article Synopsis
- Hsp40 chaperone Mas5 helps fission yeast cells manage temperature-sensitive proteins by directing them to protein aggregate centers (PACs) during heat shock, preventing their degradation until conditions improve for refolding.
- Cells without Mas5 show resilience to oxidative stress, linked to increased activity of stress response pathways involving MAP kinase Sty1 and transcription factor Atf1.
- Pyp1, a key tyrosine phosphatase, aggregates under heat stress in a Mas5-dependent way, leading to its degradation and facilitating the activation of the Sty1-Atf1 anti-stress response.
Article Abstract
Upon heat shock, the fission yeast Hsp40 chaperone Mas5 drives temperature-sensitive proteins toward protein aggregate centers (PACs) to avoid their degradation until lower temperatures favor their refolding. We show here that cells lacking Mas5 are resistant to oxidative stress. Components of the general stress pathways, the MAP kinase Sty1 and the transcription factor Atf1, are suppressors of this phenotype. Strain expresses higher levels of Sty1- and Atf1-dependent stress genes than wild-type cells. Pyp1, the main tyrosine phosphatase maintaining Sty1 inactive in the absence of stress, is a temperature-sensitive protein that aggregates upon temperature up-shifts in a Mas5-dependent manner. In strain Pyp1 is sent to proteasomal degradation even in the absence of stress. We propose that Pyp1 is a thermo-sensitive phosphatase, which during heat stress coalescences into PACs in a Mas5-dependent manner, to promote full activation of the anti-stress Sty1-Atf1 cascade.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7666349 | PMC |
| http://dx.doi.org/10.1016/j.isci.2020.101725 | DOI Listing |
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