BACKGROUND: The otic placode comprises the progenitors of the inner ear and the neurons that convey hearing and balance information to the brain. Transplantation studies in birds and amphibians demonstrate that when the otic placode is morphologically visible as a thickened patch of ectoderm, it is first committed to an otic fate. Fibroblast growth factor (FGF) signaling initiates induction of the otic placode, and levels of FGF signaling are fine-tuned by the Sprouty family of antagonists of receptor tyrosine kinase signaling. RESULTS: Here, we examined the size of the otic placode and cup by combinatorial inactivation of the Sprouty1 and Sprouty2 genes. Interestingly, in a Sprouty gene dosage series, early enlargement of the otic placode was progressively restored to normal. Restoration of otic size was preceded by normal levels of FGF signaling, reduced cell proliferation and reduced cell death. CONCLUSIONS: Our study demonstrates that excess otic placode cells, which form in response to increased FGF signaling, are not maintained in mammals. This suggests that growth plasticity exists in the mammalian otic placode and cup, and that FGF signaling may not be sufficient to induce the genetic program that maintains otic fate.
BACKGROUND: The otic placode comprises the progenitors of the inner ear and the neurons that convey hearing and balance information to the brain. Transplantation studies in birds and amphibians demonstrate that when the otic placode is morphologically visible as a thickened patch of ectoderm, it is first committed to an otic fate. Fibroblast growth factor (FGF) signaling initiates induction of the otic placode, and levels of FGF signaling are fine-tuned by the Sprouty family of antagonists of receptor tyrosine kinase signaling. RESULTS: Here, we examined the size of the otic placode and cup by combinatorial inactivation of the Sprouty1 and Sprouty2 genes. Interestingly, in a Sprouty gene dosage series, early enlargement of the otic placode was progressively restored to normal. Restoration of otic size was preceded by normal levels of FGF signaling, reduced cell proliferation and reduced cell death. CONCLUSIONS: Our study demonstrates that excess otic placode cells, which form in response to increased FGF signaling, are not maintained in mammals. This suggests that growth plasticity exists in the mammalian otic placode and cup, and that FGF signaling may not be sufficient to induce the genetic program that maintains otic fate.
Authors: Victoria E Abraira; Naomi Hyun; Andrew F Tucker; Donald E Coling; M Christian Brown; Cindy Lu; Gregory R Hoffman; Lisa V Goodrich Journal: J Neurosci Date: 2007-04-18 Impact factor: 6.167
Authors: Laura Cecilia Zelarayan; Victor Vendrell; Yolanda Alvarez; Elena Domínguez-Frutos; Thomas Theil; Maria Teresa Alonso; Mark Maconochie; Thomas Schimmang Journal: Dev Biol Date: 2007-06-02 Impact factor: 3.582
Authors: Amelia A Green; Kishore R Mosaliganti; Ian A Swinburne; Nikolaus D Obholzer; Sean G Megason Journal: Dev Dyn Date: 2017-04-03 Impact factor: 3.780