TY - JOUR
T1 - Supernumerary outer hair cells arise external to the last row of sensory cells in the organ of corti
AU - Lefebvre, P. P.
AU - Malgrange, B.
AU - Thiry, M.
AU - Breuskin, I.
AU - Van De Water, T. R.
AU - Moonen, G.
N1 - Funding Information:
This study was suppordtbyethe Beliagn National Fund for ScientŽ ciResearch, by the Fondation Médicale Reine Elisabeth (PPL, BM and GM) and by the MonteŽ ore Medical Center, Institute for CommunicnaDisortdeiro, Hseag rin Research Fund (TRV). BM and MT are research associates of the National Fnd fuor ScientiŽ c Research (Belgium).
PY - 2001/5/1
Y1 - 2001/5/1
N2 - During the development of the mammalian inner ear, the number of hair cells produced is highly regulated and remains constant throughout life. The mechanism underlying this regulation is beginning to be understood although many aspects still remain obscure. When late embryonic or early postnatal rat organs of Corti were cultured, the production of supernumerary hair cells was observed. This overproduction of sensory cells could be modulated by the addition of several growth factors. In this study, we examined explants of rat organs of Corti that produced supernumerary hair cells. In the supernumerary hair cell region, up to two rows of inner hair cells and five rows of outer hair cells were observed. Morphological evaluation of these specimens revealed that less mature hair cells were located in the most external rows of these sensory cells. When a supernumerary hair cell was produced, a supporting cell (i.e. Deiters' cell) was also produced, strongly suggesting that the conversion of a Deiters' cell into a hair cell was not the mechanism that produced these extra hair cells. Based on these results, we propose that prosensory cells located at the external edge of the organ of Corti retain a capacity to form hair cells and that it is these prosensory cells that differentiate into supernumerary hair cells and Deiters' cells.
AB - During the development of the mammalian inner ear, the number of hair cells produced is highly regulated and remains constant throughout life. The mechanism underlying this regulation is beginning to be understood although many aspects still remain obscure. When late embryonic or early postnatal rat organs of Corti were cultured, the production of supernumerary hair cells was observed. This overproduction of sensory cells could be modulated by the addition of several growth factors. In this study, we examined explants of rat organs of Corti that produced supernumerary hair cells. In the supernumerary hair cell region, up to two rows of inner hair cells and five rows of outer hair cells were observed. Morphological evaluation of these specimens revealed that less mature hair cells were located in the most external rows of these sensory cells. When a supernumerary hair cell was produced, a supporting cell (i.e. Deiters' cell) was also produced, strongly suggesting that the conversion of a Deiters' cell into a hair cell was not the mechanism that produced these extra hair cells. Based on these results, we propose that prosensory cells located at the external edge of the organ of Corti retain a capacity to form hair cells and that it is these prosensory cells that differentiate into supernumerary hair cells and Deiters' cells.
KW - Cell conversion
KW - Cochlea
KW - Supernumerary hair cells
KW - Transdifferentiation
UR - http://www.scopus.com/inward/record.url?scp=0035064540&partnerID=8YFLogxK
U2 - 10.1080/000164801300043325
DO - 10.1080/000164801300043325
M3 - Article
C2 - 11349770
AN - SCOPUS:0035064540
SN - 0001-6489
VL - 121
SP - 164
EP - 168
JO - Acta Oto-Laryngologica
JF - Acta Oto-Laryngologica
IS - 2
ER -