Identification of a microsomal retinoic acid synthase as a microsomal cytochrome P-450-linked monooxygenase system.

S Tomita, M Tsujita, Y Matsuo, T Yubisui, Y Ichikawa
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Abstract

1. To characterize an enzyme which metabolizes retinal in liver microsomes, several properties of the enzymatic reaction from retinal to retinoic acid were investigated using rabbit liver microsomes. 2. The maximum pH of the reaction in the liver microsomes was 7.6. 3. The Km and Vmax values for all-trans, 9-cis and 13-cis-retinals were determined. 4. The reaction proceeded in the presence of NADPH and molecular oxygen. 5. The incorporation of one atom of molecular oxygen into retinal was confirmed by using oxygen-18, showing that the reaction comprised monooxygenation, not dehydrogenation. 6. The monooxygenase activity was inhibited by carbon monoxide, phenylisocyanide and anti-NADPH-cytochrome P-450 reductase IgG, but not by anti-cytochrome b5 IgG. 7. The enzymatic activity inhibited by carbon monoxide was photoreversibly restored by light of a wavelength of around 450 nm. 8. The retinal-induced spectra of liver microsomes with three isomeric retinals were type I spectra. 9. The microsomal monooxygenase activity induced by phenobarbital or ethanol were more effective than that by 3-methylcholanthrene, clotrimazole or beta-naphthoflavone. 10. These results showed that the monooxygenase reaction from retinal to retinoic acid in liver microsomes is catalyzed by a cytochrome P-450-linked monooxygenase system.

微粒体视黄酸合成酶作为微粒体细胞色素p -450单加氧酶系统的鉴定。
1. 为了表征肝微粒体中代谢视网膜的酶,用兔肝微粒体研究了从视网膜到视黄酸的酶促反应的几个性质。2. 该反应在肝微粒体中的最大pH为7.6。3.测定全反式、9-顺式和13-顺式视网膜的Km和Vmax值。4. 该反应在NADPH和分子氧的存在下进行。5. 用氧-18证实了一个氧分子原子与视网膜的结合,表明反应是单氧反应,而不是脱氢反应。6. 一氧化碳、苯异氰酸酯和抗nadph -细胞色素P-450还原酶IgG对单氧化酶活性有抑制作用,而抗细胞色素b5 IgG对单氧化酶活性无抑制作用。7. 被一氧化碳抑制的酶活性被波长约450 nm的光可逆地恢复。8. 具有三种同分异构体视网膜的肝微粒体的视网膜诱导谱为I型谱。9. 苯巴比妥和乙醇对小鼠微粒体单加氧酶活性的影响大于3-甲基胆蒽、克霉唑和-萘黄酮。10. 这些结果表明,肝微粒体中视网膜生成视黄酸的单加氧酶反应是由细胞色素p -450连接的单加氧酶系统催化的。
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