丙烯醛对多胺的修饰仅产生1,5-二氮杂环辛烷:一种此前未被认识的丙烯醛介导的氧化应激机制。
Polyamine modification by acrolein exclusively produces 1,5-diazacyclooctanes: a previously unrecognized mechanism for acrolein-mediated oxidative stress.
作者信息
Tsutsui Ayumi, Imamaki Rie, Kitazume Shinobu, Hanashima Shinya, Yamaguchi Yoshiki, Kaneda Masato, Oishi Shinya, Fujii Nobutaka, Kurbangalieva Almira, Taniguchi Naoyuki, Tanaka Katsunori
机构信息
Biofunctional Synthetic Chemistry Laboratory, RIKEN, 2-1 Hirosawa, Wako-shi, Saitama 351-0198, Japan.
出版信息
Org Biomol Chem. 2014 Jul 28;12(28):5151-7. doi: 10.1039/c4ob00761a.
Acrolein, a toxic unsaturated aldehyde generated as a result of oxidative stress, readily reacts with a variety of nucleophilic biomolecules. Polyamines, which produced acrolein in the presence of amine oxidase, were then found to react with acrolein to produce 1,5-diazacyclooctane, a previously unrecognized but significant downstream product of oxidative stress. Although diazacyclooctane formation effectively neutralized acrolein toxicity, the diazacyclooctane hydrogel produced through a sequential diazacyclooctane polymerization reaction was highly cytotoxic. This study suggests that diazacyclooctane formation is involved in the mechanism underlying acrolein-mediated oxidative stress.
丙烯醛是一种由氧化应激产生的有毒不饱和醛,它能与多种亲核生物分子迅速发生反应。研究发现,在胺氧化酶存在的情况下产生丙烯醛的多胺,随后会与丙烯醛反应生成1,5 - 二氮杂环辛烷,这是一种此前未被认识但却是氧化应激重要下游产物的物质。尽管二氮杂环辛烷的形成有效地中和了丙烯醛的毒性,但通过连续的二氮杂环辛烷聚合反应产生的二氮杂环辛烷水凝胶具有高度细胞毒性。这项研究表明,二氮杂环辛烷的形成参与了丙烯醛介导的氧化应激的潜在机制。
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