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KMID : 0880220210590010076
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Journal of Microbiology
2021 Volume.59 No. 1 p.76 ~ p.91
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Alcohol dehydrogenase 1 and NAD(H)-linked methylglyoxal oxidoreductase reciprocally regulate glutathione-dependent enzyme activities in Candida albicans
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Kang Sa-Ouk
Kwak Min-Kyu
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Abstract
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Glutathione reductase (Glr1) activity controls cellular glutathione and reactive oxygen species (ROS). We previously demonstrated two predominant methylglyoxal scavengers-NAD(H)-linked methylglyoxal oxidoreductase (Mgd1) and alcohol dehydrogenase 1 (Adh1)-in glutathione-depleted ¥ã-glutamyl cysteinyl synthetase-disrupted Candida albicans. However, experimental evidence for Candida pathophysiology lacking the enzyme activities of Mgd1 and Adh1 on glutathione-dependent redox regulation remains unclear. Herein, we have aimed to demonstrate that glutathione-dependent enzyme activities coupled with cellular ROS changes is regulated by methylglyoxal accumulation in ¥Ämgd1/¥Äadh1 double disruptants. ¥Ämgd1/¥Äadh1 showed severe growth defects and G1-phase cell cycle arrest. The observed complementary and reciprocal methylglyoxal-oxidizing and methylglyoxalreducing activities between ¥Ämgd1 and ¥Äadh1 were not always exhibited in ¥Ämgd1/¥Äadh1. Although intracellular accumulation of methylglyoxal and pyruvate was shown in all disruptants, to a greater or lesser degree, methylglyoxal was particularly accumulated in the ¥Ämgd1/¥Äadh1 double disruptant. While cellular ROS significantly increased in ¥Ämgd1 and ¥Äadh1 as compared to the wild-type, ¥Ämgd1/¥Äadh1 underwent a decrease in ROS in contrast to ¥Äadh1. Despite the experimental findings underlining the importance of the undergoing unbalanced redox state of ¥Ämgd1/¥Äadh1, glutathione-independent antioxidative enzyme activities did not change during proliferation and filamentation. Contrary to the significantly lowered glutathione content and Glr1 enzyme activity, the activity staining-based glutathione peroxidase activities concomitantly increased in this mutant. Additionally, the enhanced GLR1 transcript supported our results in ¥Ämgd1/¥Äadh1, indicating that deficiencies of both Adh1 and Mgd1 activities stimulate specific glutathione-dependent enzyme activities. This suggests that glutathione-dependent redox regulation is evidently linked to C. albicans pathogenicity under the control of methylglyoxal-scavenging activities.
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KEYWORD
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alcohol dehydrogenase 1, Candida albicans, glutathione, hyphal growth, methylglyoxal, NAD(H)-linked methylglyoxal oxidoreductase
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