二氢硫辛酸及其结构同源物的抗氧化活性。

Y J Suzuki, M Tsuchiya, L Packer
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引用次数: 70

摘要

研究了二氢硫辛酸(DHLA)的结构与抗氧化活性之间的关系,研究了DHLA的同源物:二氢硫辛酸(一种疏水尾部缺少两个碳的衍生物)、四氨基硫辛酸(一种缺少四个碳的衍生物)和甲酯衍生物。结果表明:1)烃类尾部较短的DHLA同源物(即双酰基DHLA和四酰基DHLA)具有较强的抑制超氧自由基(O2-)的能力;(2)不同链长的同源物对水溶液中过氧自由基(ROO)的清除能力没有差异,(3)DHLA在ROO方面是最好的膜抗氧化剂。清除和脂质过氧化抑制。DHLA同源物在极性和极性环境中抗氧化性能的差异与它们的分配系数的差异大致一致。甲酯在水相和膜相中均是最不有效的抗氧化剂。发现Tetranor-DHLA不仅在预防ROO方面效果较差。-诱导脂质过氧化,但也诱导脂质过氧化残留铁的存在。因此,生物系统的复杂性似乎使分子结构与DHLA抗氧化活性之间关系的概括复杂化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antioxidant activities of dihydrolipoic acid and its structural homologues.

The relationships between structure and antioxidant activity of dihydrolipoic acid (DHLA) were studied using homologues of DHLA: bisonor-DHLA (a derivative which lacks two carbons in the hydrophobic tail), tetranor-DHLA (which lacks four carbons) and a methyl ester derivative. It was observed that: i) DHLA homologues with shorter hydrocarbon tails (i.e., bisnor- and tetranor-DHLA) had greater ability to quench superoxide radicals (O2-); ii) no differences among homologues with different chain lengths were found for peroxyl radical (ROO.) scavenging in aqueous solution, and iii) DHLA was the best membrane antioxidant in terms of ROO. scavenging and lipid peroxidation inhibition. Differences among the DHLA homologues in their antioxidant properties in polar and apolar environments generally agreed with differences in their partition coefficients. The methyl ester was the least effective antioxidant both in aqueous phase and in membranes. Tetranor-DHLA was found not only to be less effective in preventing ROO.-induced lipid peroxidation, but also to induce lipid peroxidation in the presence of residual iron. Thus, the complexity of biological systems seems to complicate generalizations on the correlation of molecular structure with antioxidant activity of DHLA.

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