Sensory cells in the organ of Corti exhibit loose microtubule networks enriched in tyrosinated tubulin, whereas supporting cells have bundled microtubules containing post-translationally modified tubulin. The tubulin isoform distribution suggests that the microtubules in sensory cells are dynamic and those in supporting cells are stable. To test this, microtubule resistance to cold-induced depolymerization was examined by using immunocytochemical methods and antibodies to post-translationally modified tubulins. Microtubule labelling in cochleas perfused/immersed at room temperature was identical to that in previous studies of untreated cochleas. However, the microtubule patterns of perfused/immersed specimens were changed in cold-treated cochleas. Microtubules were no longer detected with antibodies to alpha- and tyrosinated tubulin in sensory cells from specimens exposed to cold, indicating their disassembly. Supporting cells in the same specimens showed almost total loss of detyrosinated and polyglutamylated tubulin in the middle and apical cochlear turns, and reduced labelling in the basal-most turn. Probing for alpha-, nontyrosinatable, acetylated and glycylated tubulin yielded decreased and sometimes patchy staining but these isoforms were observed even when detyrosinated and polyglutamylated tubulins were absent. The results indicate that sensory cells in the gerbil auditory sensory epithelium contain only cold-sensitive microtubules. In contrast, supporting cells possess a substantial subset of cold-stable microtubules, providing structural support to the vibratory sensory organ required for hearing.
Whole mount confocal imaging of the developing Xenopus inner ear delineates the exact timing of otic development, sensory cell differentiation, and innervation. EYA1 protein expression has a distinct distribution pattern at the anterior aspect of the developing otocyst in stages 41 and 44. Later stages have a more localized pattern, in which EYA1 is detected only in the sensory epithelium and endolymphatic duct. This specific pattern of expression indicates a possible role in the determination of the anterior-posterior orientation of the inner ear, as well as a later role in sensory cell differentiation.
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