Background: The mechanisms underlying the formation of complex structures such as during the outgrowth of the cochlear duct are still poorly understood.
Results: We have analyzed the morphological and molecular changes associated with cochlear development in mouse mutants for the transcription factor Meis2, which show defective coiling of the cochlea. These morphological abnormalities were accompanied by the formation of ectopic and extra rows of sensory hair cells. Gene profiling of otic vesicles from Meis2 mutants revealed a dysregulation of genes that are potentially involved in Sonic hedgehog (Shh)-mediated patterning of the cochlear duct. Like in Shh mutants, Meis2 defective mice showed a loss of genes that are expressed in the apical part of the cochlear duct.
Conclusions: Taken together, these data reveal that the loss of Meis2 leads to a phenotype that resembles Shh mutants, suggesting that Meis2 is instrumental for cochlear Shh signaling. The modulation of the same subset of genes provides an interesting insight into which Shh responsive genes are essential for outgrowth and patterning of the cochlear duct.
Keywords: Meis; cochlea; hair cell; inner ear; otic vesicle; sonic hedgehog.
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