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KMID : 0545120210310010079
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Journal of Microbiology and Biotechnology
2021 Volume.31 No. 1 p.79 ~ p.91
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Methylglyoxal-Scavenging Enzyme Activities Trigger Erythroascorbate Peroxidase and Cytochrome c Peroxidase in Glutathione-Depleted Candida albicans
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Kang Sa-Ouk
Kwak Min-Kyu
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Abstract
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¥ã-Glutamylcysteine synthetase (Gcs1) and glutathione reductase (Glr1) activity maintains minimal levels of cellular methylglyoxal in Candida albicans. In glutathione-depleted ¥Ägcs1, we previously saw that NAD(H)-linked methylglyoxal oxidoreductase (Mgd1) and alcohol dehydrogenase (Adh1) are the most active methylglyoxal scavengers. With methylglyoxal accumulation, disruptants lacking MGD1 or ADH1 exhibit a poor redox state. However, there is little convincing evidence for a reciprocal relationship between methylglyoxal scavenger genes-disrupted mutants and changes in glutathione-(in)dependent redox regulation. Herein, we attempt to demonstrate a functional role for methylglyoxal scavengers, modeled on a triple disruptant (¥Ämgd1/¥Äadh1/¥Ägcs1), to link between antioxidative enzyme activities and their metabolites in glutathione-depleted conditions. Despite seeing elevated methylglyoxal in all of the disruptants, the result saw a decrease in pyruvate content in ¥Ämgd1/¥Äadh1/¥Ägcs1 which was not observed in double gene-disrupted strains such as ¥Ämgd1/¥Ägcs1 and ¥Äadh1/¥Ägcs1. Interestingly, ¥Ämgd1/¥Äadh1/¥Ägcs1 exhibited a significantly decrease in H2O2 and superoxide which was also unobserved in ¥Ämgd1/¥Ägcs1 and ¥Äadh1/¥Ägcs1. The activities of the antioxidative enzymes erythroascorbate peroxidase and cytochrome c peroxidase were noticeably higher in ¥Ämgd1/¥Äadh1/¥Ägcs1 than in the other disruptants. Meanwhile, Glr1 activity severely diminished in ¥Ämgd1/¥Äadh1/¥Ägcs1. Monitoring complementary gene transcripts between double gene-disrupted ¥Ämgd1/¥Ägcs1 and ¥Äadh1/¥Ägcs1 supported the concept of an unbalanced redox state independent of the Glr1 activity for ¥Ämgd1/¥Äadh1/¥Ägcs1. Our data demonstrate the reciprocal use of Eapx1 and Ccp1 in the absence of both methylglyoxal scavengers; that being pivotal for viability in non-filamentous budding yeast.
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KEYWORD
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Alcohol dehydrogenase 1, Candida albicans, erythroascorbate peroxidase, glutathione, methylglyoxal, NAD(H)-linked methylglyoxal oxidoreductase
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