Role of reactive oxygen and argininosuccinate in guanidinosuccinate synthesis in isolated rat hepatocytes.

Enzyme & protein Pub Date : 1996-01-01 DOI:10.1159/000468630
K Aoyagi, S Nagase, M Gotoh, K Akiyama, M Satoh, A Hirayama, A Koyama
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引用次数: 15

Abstract

The synthesis of guanidinosuccinic acid (GSA) increases in uremics, and GSA is implicated as a uremic toxin. The GSA synthesis increases roughly in proportion to the serum urea level that increases in patients with renal failure. Urea is a specific inhibitor of argininosuccinase, the fourth urea cycle enzyme, and might lead to the increase of argininosuccinate (ASA). We found that GSA is formed from ASA by reactive oxygen species in vitro. In this paper, we investigated GSA synthesis from ASA in isolated rat hepatocytes and the effect of reactive oxygen species on this synthesis. When isolated rat hepatocytes were incubated with 5 mmol/l ASA, GSA was formed linearly with time up to 6 h (16 nmol/g wet liver/6 h). GSA was formed depending on the ASA concentration up to 10 mmol/l. Dimethylsulfoxide, a hydroxyl radical scavenger, inhibited GSA synthesis by 65%. GSA was actively formed when the hepatocytes were incubated with 32 mmol/l urea. The GSA formation in the presence of urea was also inhibited by dimethylsulfoxide, although the inhibition was less marked. FeCl2, that increases the hydroxyl radical generation, increased GSA synthesis. These results indicate that GSA is formed from ASA in isolated hepatocytes. The results also suggest that reactive oxygen species are important for GSA synthesis in the cells.

活性氧和精氨酸琥珀酸盐在离体大鼠肝细胞中胍基琥珀酸盐合成中的作用。
胍丁二酸(GSA)的合成在尿毒症中增加,GSA被认为是一种尿毒症毒素。肾衰竭患者血清尿素水平升高时,GSA合成的增加大致成比例。尿素是第四尿素循环酶精氨酸琥珀酸酶的特异性抑制剂,可能导致精氨酸琥珀酸(ASA)的升高。我们发现GSA是由ASA通过活性氧在体外形成的。本文研究了在离体大鼠肝细胞中由ASA合成GSA,以及活性氧对其合成的影响。以5 mmol/l的ASA孵育离体大鼠肝细胞,GSA的形成与时间呈线性关系(16 nmol/g湿肝/6 h),当ASA浓度达到10 mmol/l时,GSA的形成与时间呈线性关系。二甲基亚砜是一种羟基自由基清除剂,可抑制65%的GSA合成。用32 mmol/l尿素孵育肝细胞时,GSA形成活跃。在尿素存在下,GSA的形成也受到二甲亚砜的抑制,尽管这种抑制作用不太明显。FeCl2增加了羟基自由基的生成,增加了GSA的合成。这些结果表明,GSA是由离体肝细胞的ASA形成的。结果还表明,活性氧对细胞中GSA的合成很重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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