Abstract
In the embryonic organ of Corti supernumerary hair cells were observed when developed in organotypic cultures. Hair cells ranging in up to two rows of inner hair cells (IHCs) and up to nine rows of outer hair cells (OHCs), were observed by phalloidin histochemistry. The total number of hair cells may double in some explanted cochlea compared to control ones. Cuticular plates of hair cells displayed an actin-free zone corresponding to the kinocilium location, differently located and indicating different degrees of differentiation and maturation. Moreover, some hair cells had a small apical surface area and a centrally located kinocilium, revealing immaturity. Under scanning electron microscopy, stereocilia appeared to differentiate normally, as compared to the in vivo development. The staircase pattern of the stereociliary bundles was reached on most of the hair cells with a ‘V’ shape on the OHCs and hemispherical one on the IHCs. Hair cell polarity was not homogeneous along the length of the tissue. Organs of Corti explanted at birth developed a weaker number of supernumerary hair cells showing a decrease of supernumerary hair cells with the developmental stage of the explant. These results provide evidence for supernumerary hair cells in the mammalian cochlea in culture, without loss or injury to preexisting hair cells.
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