Colloquium 14: New Functions for Retinoic Acid in the Developing CNS. The role of retinoic acid in the patterning of the developing nervous system

Abstract

Retinoic acid (RA) is metabolised from its precursor, retinol (vitamin A). In mammalian embryos, retinol is provided by the mother via the placenta and in birds retinol comes from the yolk. We have studied the role of RA in CNS development in quail embryos by depriving adult quails of retinol in the diet which results in them laying eggs which have no retinol stores. The resulting embryos are therefore retinol and RA deficient. The CNS of these embryos is abnormal in three regards; patterning, neural crest production and neurite outgrowth. With regard to patterning, at an early stage of development prior to somitogenesis, hindbrain patterning genes are not induced which leads to the respecification of the posterior hindbrain territory. This region is not lost from the embryo but instead becomes transformed into an enlarged anterior hindbrain. Another aspect of patterning that is abnormal in these RA deficient embryos is the dorsoventral gene expression domains in the anterior spinal cord. These domains are required for the proper specification of motor neurons, sensory neurons and various classes of interneurons. Consequently these neuronal classes are mis‐specified in the RA deficient embryos. With regard to the neural crest, these cells often fail to migrate correctly and then die in the absence of RA. With regard to neurite outgrowth, very little outgrowth seems to take place in these deficient embryos which suggests that RA is involved in neurite outgrowth. Taking these experiments into the adult to examine the role of RA in neurite regeneration, we have had success in inducing neurite outgrowth in vitro from adult mouse spinal cord by manipulating the retinoic acid receptors which transduce the RA signal at the level of the nucleus.