Specification of the mammalian cochlea is dependent on Sonic hedgehog

Riccomagno, Martin M.; Martinu, Lenka; Mulheisen, Michael; Wu, Doris K.; Epstein, Douglas J.

doi:10.1101/gad.1013302

Cited by 230 publications

(362 citation statements)

References 58 publications

(70 reference statements)

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“…Whereas Hh signaling in zebrafish plays an important role in anteroposterior patterning, in mouse and chicken, it appears to play a different role. Loss of Hh signaling in mouse, as seen in the Shh knockout, results in loss of ventral molecular markers and structures, such as the cochlea and cochleovestibular (otic) ganglion, whereas ectopic activation of Hh signaling dorsally results in down-regulation of dorsal markers and the turning on of some ventral markers (Riccomagno et al, 2002). Hh signaling is also important for inhibiting the expression of more dorsal genes, such as Wnt, ventrally (Riccomagno et al, 2005;Ohyama et al, 2006).…”

Section: Hedgehog Inhibition Results In Mirror Duplicationsmentioning

confidence: 99%

“…This finding contrasts with the role of Hh signaling in mouse inner ear development, where Sonic hedgehog (Shh) plays a role in dorsoventral patterning by promoting ventral identity and restricting Wnt genes to the dorsal region (Riccomagno et al, 2002(Riccomagno et al, , 2005Ohyama et al, 2006). In chickens, Shh has also been shown to be important for ventral patterning of the otocyst (Bok et al, 2005).…”

Section: Introductionmentioning

confidence: 85%

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Ablation studies on the developing inner ear reveal a propensity for mirror duplications

Waldman

Castillo

Collazo

2007

Developmental Dynamics

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Section: Hedgehog Inhibition Results In Mirror Duplicationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 85%

Ablation studies on the developing inner ear reveal a propensity for mirror duplications

Waldman

Castillo

Collazo

2007

Developmental Dynamics

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“…Neither Shh nor Foxa2 was down-regulated in the pharyngeal endoderm or head mesenchyme, and two further pieces of evidence suggest that it is unlikely that the RA repression of Tbx1 in pharyngeal endoderm is mediated by a decrease in expression of Shh or Foxa2. Firstly, axial expression of Shh exerts a long-range signaling effect upon the otic vesicle, but in Shh null mice, Tbx1 expression in the otic epithelium is maintained (Riccomagno et al, 2002), whereas in RA bead experiments otic Tbx1 is completely lost. Secondly, pharyngeal expression of Tbx1 is abnormal in the VAD quail at all stages, but expression of Shh is normal at stage 11 in the presumptive second pharyngeal pouch (Quinlan et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

Retinoic acid down‐regulates Tbx1 expression in vivo and in vitro

Roberts¹,

Ivins²,

James³

et al. 2005

Developmental Dynamics

104

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Both Tbx1 and retinoic acid (RA) are key players in embryonic pharyngeal development; loss of Tbx1 produces DiGeorge syndrome-like phenotypes in mouse models as does disruption of retinoic acid homeostasis. We have demonstrated that perturbation of retinoic acid levels in the avian embryo produces altered Tbx1 expression. In vitamin A-deficient quails, which lack endogenous retinoic acid, Tbx1 expression patterns were disrupted early in development and expression was subsequently lost in all tissues. "Gain-of-function" experiments where RA-soaked beads were grafted into the pharyngeal region produced localized down-regulation of Tbx1 expression. In these embryos, analysis of Shh and Foxa2, upstream control factors for Tbx1, suggested that the effect of RA was independent of this regulatory pathway. Real-time polymerase chain reaction analysis of retinoic acid-treated P19 cells showed a dosedependent repression of Tbx1 by retinoic acid. Repression of Tbx1 transcript levels was first evident after 8 -12 hr in culture in the presence of retinoic acid, and to achieve the highest levels of repression, de novo protein synthesis was required. Developmental Dynamics 232:928 -938, 2005.

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“…Identifying possible upstream signaling molecules and downstream targets for this transcriptional factor, whether they are epithelium-or mesenchyme-derived, will be important. It is interesting that, in the Shh mutants, both Brn4 and Tbx1 are down-regulated in the otic mesenchyme (Riccomagno et al 2002). The otic capsule is reduced in Shh mutants, indicating that other molecular pathways that mediate otic chondrogenesis are not perturbed by the loss of Shh.…”

Section: Genes Expressed In the Mesenchymementioning

confidence: 94%

“…The delamination of neuroblasts from the anteroventral region of the otic cup or otocyst is also affected in these mutant ears. Even though it has been postulated that SHH released from the ventral midline patterns the inner ear (Riccomagno et al 2002), the presence of low levels of Shh within the otic epithelium has been reported (Liu et al 2002). Although the source of SHH for patterning the inner ear remains an open question, it is clear that the otic epithelium responds directly to SHH as indicated by the presence of Patched (receptor for Shh) and Gli1 (a downstream target of Shh) mRNA transcripts within the epithelium (Liu et al 2002;Riccomagno et al 2002).…”

Section: Genes Expressed In the Hindbrainmentioning

confidence: 99%