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RDH10 是负责胚胎维生素 A 代谢和视黄酸合成第一步的主要酶。

RDH10 is the primary enzyme responsible for the first step of embryonic Vitamin A metabolism and retinoic acid synthesis.

机构信息

Department of Physiology, University of Oklahoma Health Sciences Center, Oklahoma City, OK 73104, USA.

出版信息

Dev Biol. 2011 Sep 15;357(2):347-55. doi: 10.1016/j.ydbio.2011.07.011. Epub 2011 Jul 14.

DOI:10.1016/j.ydbio.2011.07.011
PMID:21782811
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3164597/
Abstract

Retinoic acid (atRA) signaling is essential for regulating embryonic development, and atRA levels must be tightly controlled in order to prevent congenital abnormalities and fetal death which can result from both excessive and insufficient atRA signaling. Cellular enzymes synthesize atRA from Vitamin A, which is obtained from dietary sources. Embryos express multiple enzymes that are biochemically capable of catalyzing the initial step of Vitamin A oxidation, but the precise contribution of these enzymes to embryonic atRA synthesis remains unknown. Using Rdh10(trex)-mutant embryos, dietary supplementation of retinaldehyde, and retinol dehydrogenase (RDH) activity assays, we demonstrate that RDH10 is the primary RDH responsible for the first step of embryonic Vitamin A oxidation. Moreover, we show that this initial step of atRA synthesis occurs predominantly in a membrane-bound cellular compartment, which prevents inhibition by the cytosolic cellular retinol-binding protein (RBP1). These studies reveal that widely expressed cytosolic enzymes with RDH activity play a very limited role in embryonic atRA synthesis under normal dietary conditions. This provides a breakthrough in understanding the precise cellular mechanisms that regulate Vitamin A metabolism and the synthesis of the essential embryonic regulatory molecule atRA.

摘要

视黄酸(atRA)信号对于调节胚胎发育至关重要,必须严格控制 atRA 水平,以防止由于 atRA 信号过度和不足而导致的先天畸形和胎儿死亡。细胞酶从膳食来源的维生素 A 合成 atRA。胚胎表达多种能够催化维生素 A 氧化初始步骤的生化酶,但这些酶对胚胎 atRA 合成的确切贡献尚不清楚。通过 Rdh10(trex)-突变胚胎、视黄醛膳食补充和视黄醇脱氢酶(RDH)活性测定,我们证明 RDH10 是负责维生素 A 氧化初始步骤的主要 RDH。此外,我们表明,这种 atRA 合成的初始步骤主要发生在膜结合的细胞区室中,这可以防止细胞溶质细胞视黄醇结合蛋白(RBP1)的抑制。这些研究揭示了在正常饮食条件下,广泛表达具有 RDH 活性的胞质酶在胚胎 atRA 合成中仅发挥非常有限的作用。这为理解调节维生素 A 代谢和必需胚胎调节分子 atRA 合成的精确细胞机制提供了突破。

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