The development of the hindbrain afferent projections in the axolotl: evidence for timing as a specific mechanism of afferent fiber sorting.

The aim of this study is to reveal the timing and growth pattern of central octavolateral projection development in the Mexican axolotl, Ambystoma mexicanum. In this amphibian species the development of the inner ear occurs first, followed by mechanosensory lateral line organs, and finally by ampullary electroreceptors. Several hypotheses have been proposed about how the development of peripheral organs, including differential projections of the ear, might relate to the development of central projections. Our data suggest that the sequence of maturation of the ear, mechanosensory lateral line, and ampullary electroreceptive organs is closely accompanied by the timed development of the trigeminal, inner ear, mechanosensory lateral line organs, and the ampullary electroreceptor afferent projections in the axolotl. Our data suggest that segregation of central termination within the alar plate is a function of time and space: later forming organs are likely innervated by later forming ganglia that project centrally later and to more dorsal areas of the alar plate that have not yet received any other afferents. Later forming ganglia of the same type may grow along existing pathways of earlier formed neurons.