Regulation of the unfolded protein response in yeast by oxidative stress

Guerra-Moreno, Ángel; Ang, Jessie; Welsch, Hendrik; Jochem, Marco; Hanna, John

doi:10.1002/1873-3468.13389

Cited by 35 publications

(28 citation statements)

References 30 publications

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“…Osmolytes such as glycerol are often referred to as "chemical chaperones" and have been shown to increase protein stability and restore ER homeostasis [64]. Increased fluorescence of ER-GFP in oca1∆ and oca2∆ mutants might be explained by the recent finding that yeast UPR is inhibited by oxidative stress [65]. With important components of the oxidative stress response missing, yeast UPR could be more efficient in folding of the UPOM-reporter.…”

Section: Discussionmentioning

confidence: 99%

Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation

Castells-Ballester

Rinis

Kotan

et al. 2019

IJMS

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O-mannosylation is implicated in protein quality control in Saccharomyces cerevisiae due to the attachment of mannose to serine and threonine residues of un- or misfolded proteins in the endoplasmic reticulum (ER). This process also designated as unfolded protein O-mannosylation (UPOM) that ends futile folding cycles and saves cellular resources is mainly mediated by protein O-mannosyltransferases Pmt1 and Pmt2. Here we describe a genetic screen for factors that influence O-mannosylation in yeast, using slow-folding green fluorescent protein (GFP) as a reporter. Our screening identifies the RNA binding protein brefeldin A resistance factor 1 (Bfr1) that has not been linked to O-mannosylation and ER protein quality control before. We find that Bfr1 affects O-mannosylation through changes in Pmt1 and Pmt2 protein abundance but has no effect on PMT1 and PMT2 transcript levels, mRNA localization to the ER membrane or protein stability. Ribosome profiling reveals that Bfr1 is a crucial factor for Pmt1 and Pmt2 translation thereby affecting unfolded protein O-mannosylation. Our results uncover a new level of regulation of protein quality control in the secretory pathway.

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Section: Discussionmentioning

confidence: 99%

Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation

Castells-Ballester

Rinis

Kotan

et al. 2019

IJMS

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“…A phenotypic analysis suggests the potential for an analogous oxidant response pathway in yeast, although distinctions were observed. An attenuation of canonical UPR signaling was seen in the presence of arsenite (in worms and yeast) or peroxide (in yeast), and attenuation required the conserved cytoplasmic IRE1 cysteine [ 114 , 117 ]. The inhibitory effect of arsenite persisted even in the presence of established chemical inducers of the UPR, consistent with an inactivation of IRE1 kinase activity [ 114 , 117 ].…”

Section: Er Targets Of H 2 Omentioning

confidence: 99%

“…Yet, if and/or what alternative signaling is activated in yeast upon IRE1 modification remains to be elucidated. Hog1, the homologous yeast p38 MAP kinase, is activated by arsenite exposure [ 117 , 118 ]; yet, activation does not require the IRE1 cysteine [ 117 ]. The ultimate transcriptional output is also bound to be different.…”

Section: Er Targets Of H 2 Omentioning

confidence: 99%

“…In yeast, the transcription factor-based oxidative stress response is mediated through direct oxidation of the Yap family of transcription factors, which is distinct from the phosphorylation-based events described for SKN-1 [ 119 ]. Furthermore, no growth defect was observed for the yeast IRE1-C832S mutant in the presence of arsenite [ 117 ], leaving open the question as to what benefit may be conferred through the potential oxidation of yeast IRE1 Cys832.…”

Section: Er Targets Of H 2 Omentioning

confidence: 99%

“…Despite intriguing hints from reports focused on yeast and mammalian cells [ 115 , 117 ], whether sulfenylation is a conserved event used to alter the downstream signaling of IRE1 to mediate an antioxidant response remains an open question. Potential distinctions between the consequences observed for worm IRE1 sulfenylation and the potential mammalian response to IRE1 sulfenylation have been observed.…”

Section: Er Targets Of H 2 Omentioning

confidence: 99%

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Pathways for Sensing and Responding to Hydrogen Peroxide at the Endoplasmic Reticulum

Roscoe

Sevier

2020

Cells

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The endoplasmic reticulum (ER) has emerged as a source of hydrogen peroxide (H2O2) and a hub for peroxide-based signaling events. Here we outline cellular sources of ER-localized peroxide, including sources within and near the ER. Focusing on three ER-localized proteins—the molecular chaperone BiP, the transmembrane stress-sensor IRE1, and the calcium pump SERCA2—we discuss how post-translational modification of protein cysteines by H2O2 can alter ER activities. We review how changed activities for these three proteins upon oxidation can modulate signaling events, and also how cysteine oxidation can serve to limit the cellular damage that is most often associated with elevated peroxide levels.

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Restoration and preservation effects of mung bean antioxidant peptides on H₂O₂‐induced WRL‐68 cells via Keap1‐Nrf2 pathway

Miao,

Liu,

Chen

et al. 2023

Food Science & Nutrition

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Mung bean antioxidant peptides (MBAPs) were prepared from mung bean protein hydrolysate, and four peptide sequences including Ser‐Asp‐Arg‐Thr‐Gln‐Ala‐Pro‐His (~953 Da), Ser‐His‐Pro‐Gly‐Asp‐Phe‐Thr‐Pro‐Val (~956 Da), Ser‐Asp‐Arg‐Trp‐Phe (~710 Da), and Leu‐Asp‐Arg‐Gln‐Leu (~644 Da) were identified. The effects of MBAPs on the oxidation‐induced normal human liver cell line WRL‐68 were analyzed to determine the mechanism protecting the oxidation‐induced injury. The results showed that the cells were subjected to certain oxidative damage by H2O2 induction, as evidenced by decreased cell number and viability, overproduction of intracellular ROS, and decreased mitochondrial membrane potential. Compared with the H2O2‐induced group, the MBAP‐treated oxidation‐induced group exhibited significantly higher cell number and viability, and the intracellular ROS was similar to that of the control group, suggesting that MBAP scavenges excessive intracellular free radicals after acting on the oxidation‐induced cells. Combined with Western blotting results, it was concluded that the MBAP‐treated oxidation‐induced group also significantly promoted the expression of proteins related to the kelch‐like ech‐related protein 1 (Keap1)/ nuclear factor e2‐related factor 2 (Nrf2) signaling pathway, which resulted in an approximately 2‐fold increase in antioxidant enzymes, and a decrease in malondialdehyde content of approximately 55% compared to oxidatively‐induced cells, leading to the recovery of both cell morphology and viability. These results suggest that MBAPs scavenge intracellular free radicals and improve oxidative stress in hepatocytes through the expression of Keap1/Nrf2 pathway‐related protein, thereby reducing oxidative attack on the liver. Therefore, MBAP is applied as a nutritional ingredient in the functional food field, and this study provides a theoretical basis for the high utilization of mung bean proteins.

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Regulation of the unfolded protein response in yeast by oxidative stress

Cited by 35 publications

References 30 publications

Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation

Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation

Pathways for Sensing and Responding to Hydrogen Peroxide at the Endoplasmic Reticulum

Restoration and preservation effects of mung bean antioxidant peptides on H₂O₂‐induced WRL‐68 cells via Keap1‐Nrf2 pathway

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Regulation of the unfolded protein response in yeast by oxidative stress

Cited by 35 publications

References 30 publications

Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation

Translational Regulation of Pmt1 and Pmt2 by Bfr1 Affects Unfolded Protein O-Mannosylation

Pathways for Sensing and Responding to Hydrogen Peroxide at the Endoplasmic Reticulum

Restoration and preservation effects of mung bean antioxidant peptides on H2O2‐induced WRL‐68 cells via Keap1‐Nrf2 pathway

Contact Info

Product

Resources

About

Restoration and preservation effects of mung bean antioxidant peptides on H₂O₂‐induced WRL‐68 cells via Keap1‐Nrf2 pathway