BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Hippocampus, Metabolism of nitric oxide, Fenofibrate, rs4950928, ZBTB7A, Influenza)
Bookmark Forward

Limited inner ear morphogenesis and neurosensory development are possible in the absence of GATA3.

Jeremy S Duncan, Kim-Chew Lim, James D Engel, Bernd Fritzsch

Department of Biology, University of Iowa, Iowa, USA.

The International journal of developmental biology 2011


filter terms:
  • animals (1)
  • brainstem (1)
  • catecholamines (2)
  • cell migration (1)
  • cell movement (1)
  • cells (1)
  • cochlear duct (4)
  • Dicer1 (1)
  • dna binding proteins (2)
  • ear (2)
  • ear development (1)
  • ear inner (1)
  • endolymphatic duct (2)
  • GATA3 (11)
  • gata3 protein, mouse (1)
  • gata3 transcription factor (2)
  • gene expression regulation (1)
  • gene expression regulation, developmental (1)
  • hair cells vestibular (2)
  • hdr syndrome (1)
  • hypoparathyroidism, deafness and renal dysplasi... (2)
  • in situ hybridization (1)
  • inner ear morphogenesis (2)
  • loss of affect (1)
  • mice (4)
  • mice knockout (1)
  • morphogenesis (1)
  • mutation (2)
  • MYO7A (2)
  • myosins (2)
  • neurons (2)
  • neurosecretory systems (1)
  • observations hearing (1)
  • patients (1)
  • progenitor cell (1)
  • transcription factor (1)
  • vestibular nuclei (1)
  • vestibulocochlear nerve (1)
    • Sizes of these terms reflect their relevance to your search.

    Haploinsufficiency of Gata3 causes hypoparathyroidism, deafness and renal dysplasia (HDR) syndrome in mice and humans. Gata3 null mutation leads to early lethality around embryonic day (E)11.5, but catecholamine precursor administration can rescue Gata3 null mutants to E16.5. At E11.5, GATA3 deficiency results in the development of an empty otocyst with an endolymphatic duct. However, using rescued mice we found that some morphogenesis and neurosensory development is possible in the ear without Gata3. Extending previous studies, we find that at E16.5, Gata3 mutant inner ears can undergo partial morphogenesis and develop an endolymphatic duct, a utricular and saccular recess, and a shortened cochlear duct. In addition to the obvious morphogenic aberrations, these studies demonstrate that a subset of neurons develop and connect a fragmented sensory patch of MYO7A-positive hair cells to the vestibular nuclei of the brainstem. In situ hybridization studies reveal altered expression of several transcription factors relevant to ear development and we hypothesize that this may relate to the observed dysmorphia and restricted neurosensory development. While a cochlear duct can form, there is no concurrent cochlear neurosensory development, observations consistent with specific hearing defects encountered by HDR patients and mice with Gata3-associated expression alterations. Gata3 null mutant phenocopies the otic maldevelopment (cochlear duct formation in the absence of neurosensory development) seen in Foxg1cre mediated conditional deletion of microRNA processing enzyme, Dicer1. Finally, while GATA3 is expressed in the developing vestibulo-cochlear efferent (VCE) neurons, and its absence in the null mutants disrupts VCE projections to the ear, loss of GATA3 does not affect VCE progenitor cell migration.

    Citation

    Jeremy S Duncan, Kim-Chew Lim, James D Engel, Bernd Fritzsch. Limited inner ear morphogenesis and neurosensory development are possible in the absence of GATA3. The International journal of developmental biology. 2011;55(3):297-303

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 21553382

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.