H. Juhnke scite author profile

Exposure of Saccharomyces cerevisiae to elevated concentrations of hydrogen peroxide induces transcription of several genes involved in the oxidative stress response. Two major transcription factors are involved in this induction, Pos9/Skn7 and Yap1. Fusions of either Yap1 or Pos9/Skn7 with the Gal4 DNA binding domain are active as transcription factors. Gal4-Yap1-dependent reporter gene activity is only weakly regulated by oxidative stress. In contrast, fusion of the Gal4 DNA binding domain to the Pos9/Skn7 protein results in a transcription factor that is independent of the YAP1 gene and is strictly regulated by oxidative stress, indicating that a signaling cascade impinges on the Pos9/Skn7 protein. We have observed that the Ras/PKA (cAMP-dependent protein kinase A) pathway affects this signaling. When PKA activity was low (in the presence of multicopy PDE2 or a cyr1(D822-->A) mutation) maximum reporter gene activity was observed even in the absence of oxidative stress. In contrast, high PKA activity (in strains mutant for either pde2 or bcy1, or expressing the dominant active Ras2Val19) resulted in a complete loss of activation following oxidative stress. The transcription of Pos9/Skn7 target genes was also affected in Ras/PKA pathway mutants. Furthermore, we demonstrated that activated Pos9/Skn7 is necessary for Yap1-dependent reporter gene induction.

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Mutants that show increased sensitivity to hydrogen peroxide reveal an important role for the pentose phosphate pathway in protection of yeast against oxidative stress

Juhnke

Krems

Kötter

et al. 1996

Mol Gen Genet

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We have isolated several mutants of Saccharomyces cerevisiae that are sensitive to oxidative stress in a screen for elevated sensitivity to hydrogen peroxide. Two of the sixteen complementation groups obtained correspond to structural genes encoding enzymes of the pentose phosphate pathway. Allelism of the pos10 mutation (POS for peroxide sensitivity) to the zwf1/met1 mutants in the structural gene for glucose 6-phosphate dehydrogenase was reported previously. The second mutation, pos18, was complemented by transformation with a yeast genomic library. The open reading frame of the isolated gene encodes 238 amino acids. No detectable ribulose 5-phosphate epimerase activity was found in the pos18 mutant, suggesting that the corresponding structural gene is affected in this mutant. For that reason the gene was renamed RPE1 (for ribulose 5-phosphate epimerase). RPE1 was localized to chromosome X. The predicted protein has a molecular mass of 25966 Daltons, a codon adaptation index (CAI) of 0.32, and an isoelectric point of 5.82. Database searches revealed 32 to 37% identity with ribulose 5-phosphate epimerases of Escherichia coli, Rhodospirillum rubrum, Alcaligenes eutrophus and Solanum tuberosum. We have characterized RPE1 by testing enzyme activities in rpe1 deletion mutants and in strains that overexpress RPE1, and compared the hydrogen peroxide sensitivity of rpe1 mutants to that of other mutants in the pentose phosphate pathway. Interestingly, all mutants tested (glucose 6-phosphate dehydrogenase, gluconate 6-phosphate dehydrogenase, ribulose 5-phosphate epimerase, transketolase, transaldolase) are sensitive to hydrogen peroxide.

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Mutants that show increased sensitivity to hydrogen peroxide reveal an important role for the pentose phosphate pathway in protection of yeast against oxidative stress

et al. 1996

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The mitochondrial cytochrome c peroxidase Ccp1 of Saccharomyces cerevisiae is involved in conveying an oxidative stress signal to the transcription factor Pos9 (Skn7)

et al. 1999

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In Saccharomyces cerevisiae two transcription factors, Pos9 (Skn7) and Yap1, are involved in the response to oxidative stress. Fusion of the Pos9 response-regulator domain to the Gal4 DNA-binding domain results in a transcription factor which renders the expression of a GAL1-lacZ reporter gene dependent on oxidative stress. To identify genes which are involved in the oxygen-dependent activation of the Gal4-Pos9 hybrid protein we screened for mutants that failed to induce the heterologous test system upon oxidative stress (fap mutants for factors activating Pos9). We isolated several respiration-deficient and some respiration-competent mutants by this means. We selected for further characterization only those mutants which also displayed an oxidative-stress-sensitive phenotype. One of the respiration-deficient mutants (complementation groupfap6) could be complemented by the ISM1 gene, which encodes mitochondrial isoleucyl tRNA synthetase, suggesting that respiration competence was important for signalling of oxidative stress. In accordance with this notion a rho0 strain and a wild-type strain in which respiration had been blocked (by treatment with antimycin A or with cyanide) also failed to activate Gal4-Pos9 upon imposition of oxidative stress. Another mutant, fap24, which was respiration-competent, could be complemented by CCP1, which encodes the mitochondrial cytochrome c peroxidase. Mitochondrial cytochrome c peroxidase degrades reactive oxygen species within the mitochondria. This suggested a possible sensor function for the enzyme in the oxidative stress response. To test this we used the previously described point mutant ccp1 W191F, which is characterized by a 10(4)-fold decrease in electron flux between cytochrome c and cytochrome c peroxidase. The Ccp1W191F mutant was still capable of activating the Pos9 transcriptional activation domain, suggesting that the signalling function of Ccp1 is independent of electron flux rates.

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The essential protein Fap7 is involved in the oxidative stress response of Saccharomyces cerevisiae

Juhnke

Charizanis

Latifi

et al. 2000

Molecular Microbiology

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Pos9 (Skn7) is an important transcription factor that, together with Yap1, induces the expression of oxidative stress target genes in Saccharomyces cerevisiae. The activation of Pos9 upon an oxidative stress signal occurs post‐translationally. In a mutant screen for factors involved in the activation of a Pos9‐dependent reporter gene upon oxidative stress, we identified the mutant fap7‐1 (for factor activating Pos9). This point mutant failed to activate a Gal4‐Pos9 hybrid transcription factor, assayed by hydrogen peroxide‐induced GAL1‐lacZ reporter gene activities. Additionally, the fap7‐1 mutant strain was sensitive to oxidative stress and revealed slow growth on glucose compared with the wild type. The fap7‐1 mutation also affected the induction of the Pos9 target gene TPX1 and of a synthetic promoter previously identified to be regulated in a Yap1‐ and Pos9‐dependent manner. This lack of induction was specific as the fap7‐1 mutant response to other stresses such as sodium chloride or co‐application of both hydrogen peroxide and sodium chloride was not affected, as tested with the Pos9‐independent expression pattern of a TPS2‐lacZ reporter system. We identified the gene YDL166c to be allelic to the FAP7 gene and to be essential. Fluorescence microscopy of Fap7–GFP fusion proteins indicated a nuclear localization of the Fap7 protein. Our data suggest that Fap7 is a nuclear factor important for Pos9‐dependent target gene transcription upon oxidative stress.

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H. Juhnke

The oxidative stress response mediated via Pos9/Skn7 is negatively regulated by the Ras/PKA pathway in Saccharomyces cerevisiae

Mutants that show increased sensitivity to hydrogen peroxide reveal an important role for the pentose phosphate pathway in protection of yeast against oxidative stress

Mutants that show increased sensitivity to hydrogen peroxide reveal an important role for the pentose phosphate pathway in protection of yeast against oxidative stress

The mitochondrial cytochrome c peroxidase Ccp1 of Saccharomyces cerevisiae is involved in conveying an oxidative stress signal to the transcription factor Pos9 (Skn7)

The essential protein Fap7 is involved in the oxidative stress response of Saccharomyces cerevisiae

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