We have identified from mouse the first mammalian -carotene 15,15-dioxygenase (-CD), a crucial enzyme in development and metabolism that governs the de novo entry of vitamin A from plant-derived precursors. -CD is related to the retinal pigment epithelium-expressed protein RPE65 and belongs to a diverse family that includes the plant 9-cis-epoxycarotenoid dioxygenase and bacterial lignostilbene dioxygenases. -CD expression in Escherichia coli cells engineered to produce -carotene led to the accumulation of all-trans-retinal at the expense of -carotene, confirming that -CD catalyzed the central cleavage of this vitamin A precursor. Purified recombinant -CD protein cleaves -carotene in vitro with a V max of 36 pmol of retinal/mg of enzyme/ min and a K m of 6 M. Non-provitamin A carotenoids were also cleaved, although with much lower activity. By Northern analysis, a 2.4-kilobase (kb) message was observed in liver, kidney, small intestine, and testis, tissues important in retinoid/carotenoid metabolism. This message encoded a 63-kDa cytosolic protein expressed in these tissues. A shorter transcript of 1.8 kb was found in testis and skin. Developmentally, the 2.4-kb mRNA was abundant at embryonic day 7, with lower expression at embryonic days 11, 13, and 15, suggesting a critical role for this enzyme in gastrulation. Identification of -CD in an accessible model organism will create new opportunities to study vitamin A metabolism.In vertebrates, vitamin A in its various oxidative and isomeric forms is essential for embryonic development (1), pattern formation (2, 3), and vision (4). Retinoic acid, through its interaction with the nuclear retinoic acid receptor and retinoid X receptor, profoundly affects cell differentiation and development. Because animals are unable to synthesize vitamin A de novo from endogenous isoprenoid precursors, they must instead derive it from cleavage of -carotene and certain other carotenoids with an unsubstituted -ring (e.g. ␥-and ␣-carotenes, -zeacarotene, and -cryptoxanthin). It is generally accepted that central cleavage of -carotene by a putative dioxygenase gives rise to two molecules of all-trans-retinal, whereas eccentric cleavage with subsequent processing leading to a single molecule of retinoic acid from an apocarotenal is quantitatively far less important (5). -Carotene cleavage activity is reported highest in the intestinal mucosa, but is found at high activity levels in liver, kidney, lung, and fat tissues, among other sites. However, an inability to purify the protein catalyzing this reaction has hindered thorough investigation of this crucial first step in vitamin A metabolism.Because of a loose similarity between the mammalian protein RPE65 and the neoxanthin cleavage enzymes of plants, our laboratories have considered the hypothesis that the putative -CD 1 would belong to an emerging family of carotenoidcleaving dioxygenases known mainly from examples in plants (6), but with members also in bacteria and Metazoa. The first described representative was a ba...
