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来自脊椎动物视网膜的双底物特异性短链视黄醇脱氢酶。

Dual-substrate specificity short chain retinol dehydrogenases from the vertebrate retina.

作者信息

Haeseleer Françoise, Jang Geeng-Fu, Imanishi Yoshikazu, Driessen Carola A G G, Matsumura Masazumi, Nelson Peter S, Palczewski Krzysztof

机构信息

Department of Ophthalmology, University of Washington, Seattle, Washington 98195.

Department of Biochemistry, University of Nijmegen, 6500 HB Nijmegen, The Netherlands.

出版信息

J Biol Chem. 2002 Nov 22;277(47):45537-45546. doi: 10.1074/jbc.M208882200. Epub 2002 Sep 10.

Abstract

Retinoids are chromophores involved in vision, transcriptional regulation, and cellular differentiation. Members of the short chain alcohol dehydrogenase/reductase superfamily catalyze the transformation of retinol to retinal. Here, we describe the identification and properties of three enzymes from a novel subfamily of four retinol dehydrogenases (RDH11-14) that display dual-substrate specificity, uniquely metabolizing all-trans- and cis-retinols with C(15) pro-R specificity. RDH11-14 could be involved in the first step of all-trans- and 9-cis-retinoic acid production in many tissues. RDH11-14 fill the gap in our understanding of 11-cis-retinal and all-trans-retinal transformations in photoreceptor (RDH12) and retinal pigment epithelial cells (RDH11). The dual-substrate specificity of RDH11 explains the minor phenotype associated with mutations in 11-cis-retinol dehydrogenase (RDH5) causing fundus albipunctatus in humans and engineered mice lacking RDH5. Furthermore, photoreceptor RDH12 could be involved in the production of 11-cis-retinal from 11-cis-retinol during regeneration of the cone visual pigments. These newly identified enzymes add new elements to important retinoid metabolic pathways that have not been explained by previous genetic and biochemical studies.

摘要

类视黄醇是参与视觉、转录调控和细胞分化的发色团。短链醇脱氢酶/还原酶超家族的成员催化视黄醇向视黄醛的转化。在此,我们描述了来自四个视黄醇脱氢酶(RDH11 - 14)的一个新亚家族的三种酶的鉴定和特性,这些酶表现出双底物特异性,以C(15) pro - R特异性独特地代谢全反式和顺式视黄醇。RDH11 - 14可能参与许多组织中全反式和9 - 顺式视黄酸生成的第一步。RDH11 - 14填补了我们在理解光感受器(RDH12)和视网膜色素上皮细胞(RDH11)中11 - 顺式视黄醛和全反式视黄醛转化方面的空白。RDH11的双底物特异性解释了与11 - 顺式视黄醇脱氢酶(RDH5)突变相关的轻微表型,该突变在人类和缺乏RDH5的基因工程小鼠中导致白点状眼底。此外,光感受器RDH12可能在视锥视觉色素再生过程中参与从11 - 顺式视黄醇生成11 - 顺式视黄醛。这些新鉴定的酶为重要的类视黄醇代谢途径增添了新元素,而此前的遗传和生化研究尚未对此进行解释。

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