第94回日本細菌学会総会

講演情報

オンデマンド口頭発表(ODP)

4 微生物の分子論

[ODP4F] f. 微生物の代謝

[ODP-078/WS6-5] 酵母におけるsulfide:quinone oxidoreductaseを介したエネルギー代謝による寿命制御

○守田 匡伸1,西村 明2,井田 智章1,ジョン ミンギョン1,松永 哲郎1,髙田 剛1,本橋 ほづみ3,赤池 孝章1 (1東北大・院医・環境医学,2奈良先端大・先端科学技術・ストレス微生物,3東北大・加齢医学・遺伝子発現制御)

Sulfide:quinone oxidoreductase (SQR) is highly conserved enzyme in nearly all organisms and has been proposed to mediate sulfur metabolism in mitochondria. Our recent finding showed that SQR is involved in oxygen-independent novel energy metabolism, sulfur respiration. Eukaryotic SQR was first identified in fission yeast of Schizosaccharomyces pombe as a cadmium (Cd) detoxifying enzyme. To confirm this activity, we established SQR-deficient yeast and tested Cd-cytotoxicity assay where SQR-deficient yeast showed enhanced susceptibility to Cd toxicity. We then examined the involvement of SQR in the mitochondrial energy metabolism in different carbon sources. Both wild-type (WT) and SQR-deficient yeast showed normal growth in glucose medium, suggesting that SQR is dispensable for glycolytic energy production. When glycerol was the sole carbon source, SQR-deficient yeast showed defective growth, indicative of essential role of SQR for the mitochondrial energy metabolism. Mitochondrial membrane potential, ATP production and lifespan were significantly reduced in SQR-deficient yeast compared with WT yeast. Moreover, administration of hydrogen sulfide or persulfide donors extended lifespan of WT yeast but not of SQR-deficient yeast. Taken together, these data allow us to understand the physiological mechanism of sulfur respiration conserved between prokaryotes and eukaryotes.