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Merck

FGFR1-Frs2/3 signalling maintains sensory progenitors during inner ear hair cell formation.

PLoS genetics (2014-01-28)
Kazuya Ono, Tomoko Kita, Shigeru Sato, Paul O'Neill, Siu-Shan Mak, Marie Paschaki, Masataka Ito, Noriko Gotoh, Kiyoshi Kawakami, Yoshiki Sasai, Raj K Ladher
RESUMEN

Inner ear mechanosensory hair cells transduce sound and balance information. Auditory hair cells emerge from a Sox2-positive sensory patch in the inner ear epithelium, which is progressively restricted during development. This restriction depends on the action of signaling molecules. Fibroblast growth factor (FGF) signalling is important during sensory specification: attenuation of Fgfr1 disrupts cochlear hair cell formation; however, the underlying mechanisms remain unknown. Here we report that in the absence of FGFR1 signaling, the expression of Sox2 within the sensory patch is not maintained. Despite the down-regulation of the prosensory domain markers, p27(Kip1), Hey2, and Hes5, progenitors can still exit the cell cycle to form the zone of non-proliferating cells (ZNPC), however the number of cells that form sensory cells is reduced. Analysis of a mutant Fgfr1 allele, unable to bind to the adaptor protein, Frs2/3, indicates that Sox2 maintenance can be regulated by MAP kinase. We suggest that FGF signaling, through the activation of MAP kinase, is necessary for the maintenance of sensory progenitors and commits precursors to sensory cell differentiation in the mammalian cochlea.

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Roche
Kit de síntesis de la cadena primaria del ADNc para RT-PCR (AMV), sufficient for 30 reactions (including 5 control reactions), kit of 1 (10 components), suitable for RT-PCR, hotstart: no, dNTPs included
Sigma-Aldrich
Anticuerpo anti-Sox2, Chemicon®, from rabbit
Sigma-Aldrich
Anticuerpo anti-receptor del factor de crecimiento nervioso, p75, serum, Chemicon®
Sigma-Aldrich
Anticuerpo anti-Prox 1, serum, Chemicon®