白三烯A4水解酶的定点诱变:白三烯A4水解酶和氨基肽酶活性的区别。

Journal of lipid mediators Pub Date : 1993-03-01
T Izumi, M Minami, N Ohishi, H Bito, T Shimizu
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引用次数: 0

摘要

白三烯(LT) A4水解酶催化LTA4水解成生物活性物质LTB4。生化和免疫组织化学研究表明,该酶普遍分布于各种细胞和组织中。LTA4水解酶的序列结构域与几种锌金属蛋白酶具有同源性。天然酶和重组酶均具有等摩尔锌离子和氨基肽酶活性。为了研究这种酶反应的分子机制,我们进行了定点诱变实验。在Glu-297上的单氨基酸替换揭示了两种酶活性的区别,这表明297上的谷氨酸残基对于氨肽酶是必需的,而Glu或Gln的侧链对于LTA4水解酶的活性是必需的。突变体E319K中两种酶活性的丧失证实了酶中锌离子的存在是两种酶活性所必需的。
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Site-directed mutagenesis of leukotriene A4 hydrolase: distinction of leukotriene A4 hydrolase and aminopeptidase activities.

Leukotriene (LT) A4 hydrolase catalyzes enzymatic hydration of LTA4 to biologically active substance, LTB4. Biochemical and immuno-histochemical studies have shown that this enzyme is ubiquitously distributed in various cells and tissues. A sequence domain of LTA4 hydrolase was found to be homologous to those of several zinc metalloproteases. Both native and recombinant enzymes were shown to possess equimolar zinc ion and aminopeptidase activity. To examine the molecular mechanism of this enzyme reaction, site-directed mutagenesis experiments were carried out. Single amino acid substitutions at Glu-297 revealed a distinction of two enzyme activities, and suggest that the glutamic acid residue at 297 is essential for aminopeptidase, while the side chain of Glu or Gln is required for LTA4 hydrolase activity. The loss of two enzyme activities in a mutant E319K confirmed the proposal that the presence of a zinc ion in the enzyme is required for both enzyme activities.

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