Moore G A, Rossi L, Nicotera P, Orrenius S, O'Brien P J
Department of Toxicology, Karolinska Institutet, Stockholm, Sweden.
Arch Biochem Biophys. 1987 Dec;259(2):283-95. doi: 10.1016/0003-9861(87)90495-4.
Hepatocyte cytotoxicity caused by substituted benzoquinones was associated with increased cytosolic Ca2+ concentration. p-Benzoquinone-induced hepatotoxicity was enhanced when the hepatocytes were loaded with Ca2+ by preincubation with ATP. A similar order of potency of the substituted benzoquinones in releasing Ca2+ from isolated mitochondria and inducing hepatocyte cytotoxicity was found; in decreasing order, this was 2-Br-, unsubstituted-, 2-CH3-, 2,6-(CH3O)2-, 2,6-(CH3)2-, 2,5-(CH3)2-, 2,3,5-(CH3)3-, and 2,3,5,6-(CH3)4-benzoquinones (duroquinone). The cellular products of quinone metabolism, hydroquinones and glutathione conjugates, did not cause mitochondrial Ca2+ release. Benzoquinone-induced mitochondrial Ca2+ release was preceded by GSH conjugate formation and NAD(P)H oxidation but followed by mitochondrial swelling. With duroquinone, a slow GSH and NADPH oxidation preceded Ca2+ release, but GSH oxidation did not occur with Se-deficient mitochondria lacking glutathione peroxidase activity. Cyanide-insensitive respiration was also observed with duroquinone but not with benzoquinone, suggesting that duroquinone undergoes redox cycling. GSH was depleted by both arylation and oxidation with 2,6-(CH3O)2-, 2,6-(CH3)2-, 2,5(CH3)2-, and 2,3,5-(CH3)3-benzoquinones. Benzoquinone concentrations that totally depleted GSH did not cause Ca2+ release until intramitochondrial NAD(P)H was oxidized. Ca2+ release was also prevented when NAD(P)H generation was stimulated by the presence of isocitrate or 3-hydroxybutyrate. This suggests that mitochondrial Ca2+ release is associated with NAD(P)H oxidation catalyzed by NADH dehydrogenase with benzoquinone or by the glutathione peroxidase-glutathione reductase system with duroquinone.
取代苯醌引起的肝细胞毒性与胞质钙离子浓度升高有关。当肝细胞通过与ATP预孵育而加载钙离子时,对苯醌诱导的肝毒性会增强。在从分离的线粒体中释放钙离子以及诱导肝细胞毒性方面,发现取代苯醌具有相似的效力顺序;按降序排列依次为2-溴代、未取代、2-甲基、2,6-(甲氧基)2、2,6-(甲基)2、2,5-(甲基)2、2,3,5-(甲基)3以及2,3,5,6-(甲基)4-苯醌(杜醌)。醌代谢的细胞产物对苯二酚和谷胱甘肽缀合物不会引起线粒体钙离子释放。苯醌诱导的线粒体钙离子释放之前会有谷胱甘肽缀合物形成和NAD(P)H氧化,但随后会出现线粒体肿胀。对于杜醌,在钙离子释放之前会有缓慢的谷胱甘肽和NADPH氧化,但缺乏谷胱甘肽过氧化物酶活性的缺硒线粒体不会发生谷胱甘肽氧化。用杜醌时也观察到了对氰化物不敏感的呼吸作用,但用苯醌时未观察到,这表明杜醌会发生氧化还原循环。2,6-(甲氧基)2、2,6-(甲基)2、2,5(甲基)2以及2,3,5-(甲基)3-苯醌通过芳基化和氧化都会消耗谷胱甘肽。完全耗尽谷胱甘肽的苯醌浓度在线粒体内NAD(P)H被氧化之前不会引起钙离子释放。当异柠檬酸或3-羟基丁酸的存在刺激NAD(P)H生成时,钙离子释放也会被阻止。这表明线粒体钙离子释放与由苯醌的NADH脱氢酶催化的NAD(P)H氧化或由杜醌的谷胱甘肽过氧化物酶-谷胱甘肽还原酶系统催化的NAD(P)H氧化有关。
