Retinoids and their receptors in vertebrate embryogenesis.

Vitamin A and its derivatives, the retinoids, participate in formation of diverse embryonic structures, including face, heart, eye, limb and nervous system. Studies of retinoid-deficient and -treated embryos, and of receptor null mutants, provide evidence that this participation involves interactions between retinoids and their receptors. Targeted retinoid application and retinoid deficiency, using in ovo avian embryos, has identified early cardiogenic contributions, including cardiocyte gene expression and differentiation, heart tube fusion and laterality, and segmental identity. Also useful is a mammalian model, which targets retinoid deficiency to distinct gestational windows, circumventing limitations of traditional deficiency studies and current null mutant technologies. Rat embryos made deficient in retinoids during gestational d 11.5-13.5 exhibit specific cardiac, limb, ocular and nervous system deficits. That many of the anomalies previously reported in retinoid receptor null mutants are observed in deficiency confirms that ligand-receptor interactions are essential for embryonic development. Other defects are novel, reemphasizing the functional redundancy of retinoid receptors and that retinoid receptors have multiple and overlapping contributions to morphogenesis.