Department of Pharmacology, University of Cambridge, Tennis Court Road, Cambridge CB2 1PD, U.K.
Biochem J. 2012 Dec 15;448(3):389-400. doi: 10.1042/BJ20121050.
Glutathione export from uninfected human erythrocytes was compared with that from cells infected with the malaria parasite Plasmodium falciparum using two separate methods that distinguish between oxidized (GSSG) and reduced (GSH) glutathione. One involved enzymatic recycling with or without thiol-masking; the other involved rapid derivatization followed by HPLC. Glutathione efflux from uninfected erythrocytes under physiological conditions occurred predominantly as GSH. On exposure of the cells to oxidative challenge, efflux of GSSG exceeded that of GSH. Efflux of both species was blocked by MK571, an inhibitor of mammalian multidrug-resistance proteins. Glutathione efflux from parasitized erythrocytes was substantially greater than that from uninfected erythrocytes. Under physiological conditions, the exported species was GSH, whereas under energy-depleted conditions, GSSG efflux occurred. Glutathione export from parasitized cells was inhibited partially by MK571 and more so by furosemide, an inhibitor of the 'new permeability pathways' induced by the parasite in the host erythrocyte membrane. Efflux from isolated parasites occurred as GSH. On exposure to oxidative challenge, this GSH efflux decreased, but no GSSG export was detected. These results are consistent with the view that the parasite supplies its host erythrocyte with GSH, much of which is exported from the infected cell via parasite-induced pathways.
我们比较了未感染的人红细胞和感染疟原虫恶性疟原虫(Plasmodium falciparum)的红细胞之间谷胱甘肽的输出,使用了两种可区分氧化型(GSSG)和还原型(GSH)谷胱甘肽的方法。一种方法涉及酶促循环,有无巯基掩蔽;另一种方法涉及快速衍生化,然后进行 HPLC 分析。在生理条件下,未感染的红细胞中谷胱甘肽的外流主要以 GSH 形式发生。当细胞暴露于氧化应激时,GSSG 的外流超过 GSH。两种物质的外流均被 MK571 阻断,MK571 是哺乳动物多药耐药蛋白的抑制剂。寄生红细胞的谷胱甘肽外流明显大于未感染的红细胞。在生理条件下,输出的物质是 GSH,而在能量耗尽的条件下,GSSG 外流发生。MK571 和抑制寄生虫在宿主红细胞膜中诱导的“新通透性途径”的呋塞米(furosemide)部分抑制寄生细胞的谷胱甘肽外流。从分离的寄生虫中流出的是 GSH。暴露于氧化应激时,这种 GSH 外流减少,但未检测到 GSSG 输出。这些结果与寄生虫为宿主红细胞提供 GSH 的观点一致,其中大部分通过寄生虫诱导的途径从感染细胞中输出。
