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Cochlear neurosensory specification and competence: you gata have GataDuncan, Jeremy Shane 01 May 2012 (has links)
Early prosensory specification to develop competence in the otic epithelium is disrupted by mutations of Eya1, Pax2, Sox2, Jag1, and Gata3. Mutations in these genes apparently disrupt sensory competence and may affect Atoh1 upregulation, a gene known to be necessary for sensory cell differentiation within the ear. How these genes interact with each other and other factors within the genetic network of the ear to refine and restrict sensory specification and impart competence to the developing organ of Corti is not known. These genes also interact with other factors expressed adjacent to or within the developing organ of Corti and provide the context to allow prosensory cells, after cell cycle exit, to appropriately respond to Atoh1 expression and differentiate as hair cells. Gata3 is expressed throughout the early placode. As ear development continues Gata3 is restricted to all prosensory areas except that of the saccule. In addition, it is expressed in a subset of delaminating neuroblasts. Gata3 continues to be highly expressed in the cochlear sensory epithelia as cells differentiate, and is expressed in all cells of the organ of Corti through adult. The human disorder caused by haploinsufficiency of Gata3 is known as Hypoparathyriodism, Deafness, and Renal dysplasia syndrome, and has been linked in mice to early hair cell death. I investigated the role of Gata3 in cochlear neurosensory specification utilizing a mouse Gata3 knockout model and a conditionally deleted Gata3 line combined with two cre driver lines (Foxg1cre and Pax2cre). Although both cre lines are expressed in the inner ear with only a slight difference in onset of expression there are major phenotypic differences. While the Foxg1cre:Gata3f/f deletion resulted in an ear closely matching that of the null mutant with a cochlear duct devoid of neurosensory cells, the Pax2cre:Gata3f/f cochlear duct contained patches of partially differentiated hair cells. Through the use of qRT-PCR and in situ hybridization of both mutants I was able to paint a picture of how Gata3 interacts with other prosensory genes to upregulate downstream genes. In particular, Atoh1, was downregulated but not absent with the loss of Gata3. Indicating that Gata3 is one of a set of factors necessary for the proper upregulation of Atoh1 in the cochlea.
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