葡萄糖-6-磷酸脱氢酶缺乏细胞与二硫化物的生物还原：脱氢表雄酮、谷胱甘肽耗竭及氧化苯胂的影响

G6PD deficient cells and the bioreduction of disulfides: effects of DHEA, GSH depletion and phenylarsine oxide.

作者信息

Biaglow J E, Ayene I S, Koch C J, Donahue J, Stamato T D, Tuttle S W

机构信息

Department of Radiation Oncology and Biophysics, University of Pennsylvania Medical School, Philadelphia, Pennsylvania 19104, USA.

出版信息

Biochem Biophys Res Commun. 2000 Jul 14;273(3):846-52. doi: 10.1006/bbrc.2000.3024.

DOI:10.1006/bbrc.2000.3024

PMID:10891335

Abstract

We used Glucose 6 phosphate dehydrogenase (G6PD) minus cells (89 cells) and G6PD containing cells (K1) to understand the mechanisms of bioreduction of disulfide and the redox regulation of protein and non protein thiols in mammalian cells. The 89 cells reduce hydroxyethyldisulfide (HEDS) to mercaptoethanol (ME) at a slower rate than K1 cells. HEDS reduction results in loss of nonprotein thiols (NPSH) and a decrease in protein thiols (PSH) in 89 cells. The effects are less dramatic with K1 cells. However, the loss of NPSH and PSH in K1 cells are increased in the absence of glucose. Glutathione-depletion with L-BSO partially blocks HEDS reduction in K1 and 89 cells. Treatment with the vicinal thiol reagent phenyl arsenic oxide (PAO) blocks reduction of HEDS in both cells. Surprisingly, dehydroepiandrosterone (DHEA), a known inhibitor of G6PD, inhibits the growth and blocks the reduction of HEDS both in 89 and K1 cells suggesting that its mechanism for inhibition of growth is not G6PD related.

摘要

我们使用葡萄糖6磷酸脱氢酶（G6PD）缺陷型细胞（89细胞）和含G6PD的细胞（K1）来了解哺乳动物细胞中二硫键生物还原的机制以及蛋白质和非蛋白质硫醇的氧化还原调节。89细胞将羟乙基二硫化物（HEDS）还原为巯基乙醇（ME）的速度比K1细胞慢。在89细胞中，HEDS还原导致非蛋白质硫醇（NPSH）的损失和蛋白质硫醇（PSH）的减少。K1细胞中的这些影响则不那么明显。然而，在缺乏葡萄糖的情况下，K1细胞中NPSH和PSH的损失会增加。用L-BSO消耗谷胱甘肽会部分阻断K1和89细胞中HEDS的还原。用邻二硫醇试剂苯胂氧化物（PAO）处理会阻断两种细胞中HEDS的还原。令人惊讶的是，脱氢表雄酮（DHEA）是一种已知的G6PD抑制剂，它在89和K1细胞中均抑制生长并阻断HEDS的还原，这表明其抑制生长的机制与G6PD无关。

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葡萄糖-6-磷酸脱氢酶缺乏细胞与二硫化物的生物还原：脱氢表雄酮、谷胱甘肽耗竭及氧化苯胂的影响

G6PD deficient cells and the bioreduction of disulfides: effects of DHEA, GSH depletion and phenylarsine oxide.

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