| Summary: | The vertebrate inner ear is a complex three-dimensional sensorial structure with auditory and vestibular functions, regarded as an excellent system for analyzing events that occur during development, such as patterning, morphogenesis, and cell specification. Retinoic acid (RA) is involved in all these development processes. Cellular retinoic acid-binding proteins (CRABPs) bind RA with high affinity, buffering cellular free RA concentrations and consequently regulating the activation of precise specification programs mediated by particular regulatory genes. In the otic vesicle, strong <i>CRABP-I</i> expression was detected in the otic wall’s dorsomedial aspect, where the endolymphatic apparatus develops, whereas this expression was lower in the ventrolateral aspect, where part of the auditory system forms. Thus, <i>CRABP-I</i> proteins may play a role in the specification of the dorsal-to-ventral and lateral-to-medial axe of the otic anlagen. Regarding the developing sensory patches, a process partly involving the subdivision of a ventromedial pro-sensory domain, the <i>CRABP-I</i> gene displayed different levels of expression in the presumptive territory of each sensory patch, which was maintained throughout development. <i>CRABP-I</i> was also relevant in the acoustic-vestibular ganglion and in the periotic mesenchyme. Therefore, <i>CRABP-I</i> could protect RA-sensitive cells in accordance with its dissimilar concentration in specific areas of the developing chick inner ear.
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