Abstract
The Set4 protein in the yeast Saccharomyces cerevisiae contains both a PHD finger and a SET domain, a common signature of chromatin-associated proteins, and shares sequence homology with the yeast protein Set3, the fly protein UpSET, and the human protein mixed-lineage leukemia 5 (MLL5). However, the biological role for Set4 and its potential function in chromatin regulation has not been well defined. Here, we analyzed yeast cell phenotypes associated with loss of Set4 or its overexpression, which revealed that Set4 protects against oxidative stress induced by hydrogen peroxide. Gene expression analysis indicated that Set4 promotes the activation of stress response genes in the presence of oxidative insults. Using ChIP analysis and other biochemical assays, we also found that Set4 interacts with chromatin and directly localizes to stress response genes upon oxidative stress. However, recombinant Set4 did not show detectable methyltransferase activity on histones. Our findings also suggest that Set4 abundance in the cell is balanced under normal and stress conditions to promote survival. Overall, these results suggest a model in which Set4 is a stress-responsive, chromatin-associated protein that activates gene expression programs required for cellular protection against oxidative stress. This work advances our understanding of mechanisms that protect cells during oxidative stress and further defines the role of the Set3-Set4 subfamily of SET domain-containing proteins in controlling gene expression in response to adverse environmental conditions.
Highlights
YEG001 yEG322 yEG325 yEG638 yEG639 yEG640 yEG641 yEG513 yEG735 yEG330 yEG347 yEG315 yEG372 yEG375 yEG626 yEG282 yEG443 yEG444BY4741 BY4741 BY4741 BY4741 BY4741 BY4741 BY4741 BY4741 BY4741 BY4741 BY4741 DBY12394 DBY12394 DBY12394 DBY12394 Sigma1278b Sigma1278b Sigma1278b GenotypeMATa his3⌬1 leu2⌬0 met15⌬0 ura3⌬0 MATa set4⌬::HIS3MX MATa set4⌬::HIS3MX MATa yEG001 ϩ p045 MATa yEG322 ϩ p045 MATa yEG001 ϩ p188 MATa yEG322 ϩ p188MATa SET4::FLAG-SET4 MATa set4⌬::HIS3MX ϩ p171 MAT␣ set3⌬::NATMX MATa set4⌬::HIS3MX set3⌬::NATMX MATa ura3⌬ leu2⌬0::ACT1pr-Z3EV-NATMX MATa yEG315 ϩ p183 MATa yEG315 ϩ p180 MATa ura3⌬ leu2⌬0::ACT1pr-Z3EV-NATMX set4⌬::HIS3MX ϩ p302 MAT␣ ura3-52 MAT␣ yEG282 ϩ p041 MAT␣ yEG282 ϩ p175 SourceYKO This study This study This study This study This study This study This study This study This study This study Ref. 28 This study This study This study From P
Relatively little is known about the biological functions of Set4; we focused on this protein for further analysis
We investigated the biological functions of the uncharacterized SET domain– containing protein Set4 in budding yeast
Summary
H3 and H4, histone H3 and H4, respectively; me, methylation; HDAC, histone deacetylase; SAM, S-adenosylmethionine; KMT, lysine methyltransferase; ROS, reactive oxygen species; DCFH-DA, 2,7-dichlorodihydrofluorescein diacetate; IP, immunoprecipitation; GO, gene ontology; SC, synthetic complete; MPA, mycophenolic acid; qPCR, quantitative PCR; HSPC, hematopoietic stem and progenitor cell; HRP, horseradish peroxidase. Genome-wide studies have shown that Set is expressed at low levels under normal growth conditions [25], it appears to be upregulated during stress, such as anoxia [26], and during stationary phase [27]. These observations suggest the possibility that Set may be a stress-regulated chromatin protein; its biological function has yet to be well-characterized. This work identifies Set as a regulated chromatin factor required for controlling gene expression in response to stress and sheds light on potential additional roles for metazoan orthologs, such as fly UpSET and mammalian MLL5
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