亚硫酸氢钠加合物对大鼠肝脏血红素加合酶的诱导氧化应激

Jorge O Ossola, Gisela Kristoff, Marı́a L Tomaro
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引用次数: 16

摘要

研究了亚硫酸氢钠加合物对肝脏氧化应激和血红素加合酶诱导的体内作用。在给予亚硫酸氢钠加合物1小时后,观察到脂质过氧化明显增加。为了评价肝脏抗氧化酶防御能力,测定了超氧化物歧化酶、过氧化氢酶和谷胱甘肽过氧化物酶的活性。注射亚硫酸氢钠甲萘醌加合物3 h后,抗氧化酶显著降低。血红素加氧酶活性在处理后6 h出现,在亚硫酸氢钠加合物给药后9 h达到峰值。在这种诱导之前,肝内谷胱甘肽池减少,过氧化氢稳态浓度增加,这两种作用都发生在血红素加氧酶诱导前几小时。铁铁蛋白水平和铁蛋白含量在血红素加氧酶诱导后6 h开始升高,在处理后15 h显著升高,注射亚硫酸氢钠加合物后至少24 h仍保持较高水平。在亚硫酸氢钠加合物治疗前2小时给予胆红素完全阻止血红素加合酶的诱导以及肝GSH的降低和脂质过氧化的增加。这些结果表明,亚硫酸氢钠甲萘醌加合物诱导血红素加氧酶可能是对氧化应激的一般反应,通过增加胆红素和铁蛋白水平,因此可能提供一种主要的细胞防御机制,以抵抗氧化损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heme oxygenase induction by menadione bisulfite adduct-generated oxidative stress in rat liver

The in vivo effect of menadione bisulfite adduct on both hepatic oxidative stress and heme oxygenase induction was studied. A marked increase in lipid peroxidation was observed 1 h after menadione bisulfite adduct administration. To evaluate liver antioxidant enzymatic defenses, superoxide dismutase, catalase and glutathione peroxidase activities were determined. Antioxidant enzymes significantly decreased 3 h after menadione bisulfite adduct injection. Heme oxygenase activity appeared 6 h after treatment, peaking 9 h after menadione bisulfite adduct administration. Such induction was preceded by a decrease in the intrahepatic GSH pool and an increase in hydrogen peroxide steady-state concentration, both effects taking place some hours before induction of heme oxygenase. Iron ferritin levels and ferritin content began to increase 6 h after heme oxygenase induction, and these increases were significantly higher 15 h after treatment and remained high for at least 24 h after menadione bisulfite adduct injection. Administration of bilirubin entirely prevented heme oxygenase induction as well as the decrease in hepatic GSH and the increase in lipid peroxidation when administered 2 h before menadione bisulfite adduct treatment. These results indicate that the induction of heme oxygenase by menadione bisulfite adduct may be a general response to oxidant stress, by increasing bilirubin and ferritin levels and could therefore provide a major cellular defense mechanism against oxidative damage.

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