Ferrali M, Signorini C, Ciccoli L, Comporti M
Istituto di Patologia Generale, Università di Siena, Italy.
Biochem J. 1992 Jul 1;285 ( Pt 1)(Pt 1):295-301. doi: 10.1042/bj2850295.
Mouse erythrocytes were incubated with oxidizing agents, phenylhydrazine, divicine and isouramil. With all the oxidants a rapid release of iron in a desferrioxamine (DFO)-chelatable form was seen and it was accompanied by methaemoglobin formation. If the erythrocytes were depleted of GSH by a short preincubation with diethyl maleate, the release of iron was accompanied by lipid peroxidation and, subsequently, haemolysis. GSH depletion by itself did not induce iron release, methaemoglobin formation, lipid peroxidation or haemolysis. Rather, the fate of the cell in which iron is released depended on the intracellular availability of GSH. In addition, iron release was higher in depleted cells than in native ones, suggesting a role for GSH in preventing iron release when oxidative stress is imposed by the oxidants. Iron release preceded lipid peroxidation. The latter was prevented when the erythrocytes were preloaded with DFO in such a way (preincubation with 10 mM-DFO) that the intracellular concentration was equivalent to that of the released iron, but not when the intracellular DFO was lower (preincubation with 0.1 mM-DFO). Extracellular DFO did not affect lipid peroxidation and haemolysis, suggesting again that the observed events occur intracellularly (intracellular chelation of released iron). The relevance of iron release from iron complexes in the mechanisms of cellular damage induced by oxidative stress is discussed.
将小鼠红细胞与氧化剂、苯肼、双香豆素和异脲嘧啶一起孵育。使用所有氧化剂时,均可见以去铁胺(DFO)可螯合形式快速释放铁,且伴有高铁血红蛋白形成。如果红细胞通过与马来酸二乙酯短暂预孵育而耗尽谷胱甘肽(GSH),则铁的释放会伴随着脂质过氧化,随后发生溶血。单独的GSH耗竭不会诱导铁释放、高铁血红蛋白形成、脂质过氧化或溶血。相反,铁释放的细胞的命运取决于细胞内GSH的可用性。此外,耗尽细胞中的铁释放高于天然细胞,这表明当氧化剂施加氧化应激时,GSH在防止铁释放中起作用。铁释放先于脂质过氧化。当红细胞以细胞内浓度等同于释放铁的浓度的方式(用10 mM - DFO预孵育)预先加载DFO时,脂质过氧化可被阻止,但当细胞内DFO较低时(用0.1 mM - DFO预孵育)则不能。细胞外DFO不影响脂质过氧化和溶血,这再次表明观察到的事件发生在细胞内(释放铁的细胞内螯合)。讨论了氧化应激诱导的细胞损伤机制中铁从铁复合物释放的相关性。