Abstract
For vertebrate development, vitamin A (all-trans retinol) is required in quantitative different amounts and spatiotemporal distribution for the production of retinoic acid, a nuclear hormone receptor ligand, and 11-cis retinal, the chromophore of visual pigments. We show here for zebrafish that embryonic retinoid homeostasis essentially depends on the activity of a leci-thin:retinol acyltransferase (Lratb). During embryogenesis, lratb is expressed in mostly non-overlapping domains opposite to retinal dehydrogenase 2 (raldh2), the key enzyme for retinoic acid synthesis. Blocking retinyl ester formation by a targeted knock down of Lratb results in significantly increased retinoic acid levels, which lead to severe embryonic patterning defects. Thus, we provide evidence that a balanced competition between Lratb and Raldh2 for yolk vitamin A defines embryonic compartments either for retinyl ester or retinoic acid synthesis. This homeostatic mechanism dynamically adjusts embryonic retinoic acid levels for gene regulation, concomitantly sequestering excess yolk vitamin A in the form of retinyl esters for the establishment of larval vision later during development.
Highlights
Yolk retinoids must be proportioned during embryonic development to adequately support both these processes
Yolk retinoids must be proportioned during embryonic development to adequately support both gene regulation (RA) and visual pigment biogenesis (11-cis RAL) in the developing eyes
Our analysis revealed that these retinoids are largely converted to retinyl esters (RE) during embryogenesis
Summary
Cloning of lrata and lratb—For cloning lrat orthologues from zebrafish, we searched the data base and found two full-length cDNA sequences (GenBankTM accession codes BC095753 and BC090301) encoding proteins with high overall sequence identity to the mouse and human Lrat, respectively. Assays were carried out 48 h post-transfection under dim red light (620 nm) For this purpose, the cell culture medium was replaced by 2 ml of fresh medium containing 5 M ROL (Sigma). The HPLC solvent was expressing Lratb efficiently synthesized RE, whereas in nonn-hexane and ethylacetate (81:19, v,v) containing 12.5 l of ace- transfected cells this ROL derivative was not detectable Tification of the molar amounts of retinoids, peak integrals were We performed whole mount mRNA in situ hybridization scaled with defined amounts of reference substances from Sig- (WISH) to analyze the expression patterns of both lrat paralma-Aldrich and were quantified using the 32 Karat software ogues from zebrafish.
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