Abstract
Vitamin A (all-trans retinol) plays critical roles in mammalian development and vision. Since vitamin A is food-derived, tissue-specific uptake and storage mechanism are needed. In the eye, uptake of RBP4-retinol is mediated by the receptor Stra6, whereas the receptor mediating RBP4 binding and retinol transport into the liver has just recently been discovered. Here we examined the role of zebrafish retinol binding protein receptor 2 (Rbpr2) for RBP4-retinol uptake in developing embryos, using eye development and vision as sensitive readouts. In cultured cells, Rbpr2 localized to membranes and promoted RBP4-retinol uptake. In larvae, Rbpr2 expression was detected in developing intestinal enterocytes and liver hepatocytes. Two rbpr2 mutant zebrafish lines, each resulting in Rbpr2 deficiency, exhibit a small eye defect, and systemic malformations including hydrocephaly and cardiac edema, phenotypes associated with vitamin A deficiency. In the retina, Rbpr2 loss resulted in shorter photoreceptor outer segments, mislocalization and decrease in visual pigments, decreased expression of retinoic acid-responsive genes and photoreceptor cell loss, overall leading to a reduction of visual function. Together, these results demonstrate that Rbpr2-mediated RBP4-retinol uptake in developing liver and intestine is necessary to provide sufficient substrate for ocular retinoid production required for photoreceptor cell maintenance and visual function.
Highlights
SR-B1 is not expressed in the liver nor involved in dietary atROL absorption, indicating the presence of other membrane receptors[10,14,20]
The localization pattern for zebrafish Rbpr[2] was similar to that previously observed for human STRA6, zebrafish Stra[6] and mouse retinol binding protein receptor 2 (RBPR2) in NIH3T3 cells, suggesting conserved functionality for a proposed RBP4-ROL receptor among species[20,21,25]
ROL bound to its plasma protein carrier (RBP4-ROL) was identified in cells expressing Rbpr[2], a process that was significantly enhanced in cells expressing both the transporter Rbpr[2] and the enzyme lecithin:retinol acyltransferase (LRAT), which catalyzes the transfer of the acyl group from the sn-1 position of phosphatidylcholine to retinol, producing retinyl esters[20,23] (Fig. 1C,D)
Summary
Yi Shi[1,2], Elisabeth Obert[3], Bushra Rahman[1], Bärbel Rohrer3,4 & Glenn P. Rbpr[2] loss resulted in shorter photoreceptor outer segments, mislocalization and decrease in visual pigments, decreased expression of retinoic acid-responsive genes and photoreceptor cell loss, overall leading to a reduction of visual function Together, these results demonstrate that Rbpr2-mediated RBP4-retinol uptake in developing liver and intestine is necessary to provide sufficient substrate for ocular retinoid production required for photoreceptor cell maintenance and visual function. It is well established that STRA6 mediates cellular uptake of holo-RBP4 into the eye, STRA6 is not expressed in adult liver nor intestine, the tissues that are proposed to mediate uptake, storage and distribution of all-trans retinol in the body, indicating the presence of yet unidentified membrane receptors which could bind RBP4 in this process[20]. Our observed eye phenotypes and results were consistent with vitamin A deficiency, previously observed in animal models, and suggested that Rbpr[2] is required for photoreceptor outer segment morphogenesis and maintenance, likely by contributing to overall retinoid homeostasis
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