Dennis C. Monks scite author profile

BackgroundIn vertebrates, the inner ear is comprised of the cochlea and vestibular system, which develop from the otic vesicle. This process is regulated via inductive interactions from surrounding tissues. Tbx1, the gene responsible for velo-cardio-facial syndrome/DiGeorge syndrome in humans, is required for ear development in mice. Tbx1 is expressed in the otic epithelium and adjacent periotic mesenchyme (POM), and both of these domains are required for inner ear formation. To study the function of Tbx1 in the POM, we have conditionally inactivated Tbx1 in the mesoderm while keeping expression in the otic vesicle intact.ResultsConditional mutants (TCre-KO) displayed malformed inner ears, including a hypoplastic otic vesicle and a severely shortened cochlear duct, indicating that Tbx1 expression in the POM is necessary for proper inner ear formation. Expression of the mesenchyme marker Brn4 was also lost in the TCre-KO. Brn4-;Tbx1+/-embryos displayed defects in growth of the distal cochlea. To identify a potential signal from the POM to the otic epithelium, expression of retinoic acid (RA) catabolizing genes was examined in both mutants. Cyp26a1 expression was altered in the TCre-KO, while Cyp26c1 showed reduced expression in both TCre-KO and Brn4-;Tbx1+/- embryos.ConclusionThese results indicate that Tbx1 expression in the POM regulates cochlear outgrowth potentially via control of local retinoic acid activity.

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Mutational analysis of HOXA2 and SIX2 in a Bronx population with isolated microtia

Monks

Jahangir

Shanske

et al. 2010

International Journal of Pediatric Otorhinolaryngology

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Identification of putative retinoic acid target genes downstream of mesenchymal Tbx1 during inner ear development

Monks

Morrow

2012

Developmental Dynamics

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The T-box transcription factor Tbx1 is expressed in the otic vesicle and surrounding mesoderm of the periotic mesenchyme (POM) during inner ear development. Mesenchymal Tbx1 is essential for inner ear development, with conditional mutants displaying defects in both the auditory and vestibular systems. We have previously reported that mesodermal Tbx1 loss of function mutants (Mest-KO) have reduced expression of retinoic acid (RA) metabolic genes, Cyp26a1 and Cyp26c1, in the POM, consistent with other studies showing an increase in mesodermal RA reporter expression in Tbx1-/- embryos. However, putative RA effector genes whose expression is altered downstream of increased otic mesenchymal-epithelial RA signaling have remained elusive. Here we report the identification of eighteen retinoic acid responsive genes altered in Mest-KO conditional mutants by microarray gene profiling. Nine were chosen for biological validation including quantitative RT-PCR and in situ hybridization (Otor, Mia, Col2a1, Clu, Adm, Myt1, Dlx3, Itgb3 and Itga2b). This study provides a series of newly identified RA effector genes for inner ear development downstream of mesenchymal Tbx1 that may contribute to the inner ear phenotype observed in Tbx1 loss of function mouse models.

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709: Gene expression profiling of lymphoblastic cell lines from monosomy 1p36 patients reveals differential regulation (expression) of cardiac and neurologic relevant genes

Alkalay

Babcock

Bergsmedh

et al. 2009

American Journal of Obstetrics and Gynecology

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Tbx1 regulates mesenchymal–epithelial signaling necessary for inner ear development

Monks

Braunstein

Morrow

2009

Developmental Biology

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Dennis C. Monks

Tbx1 and Brn4regulate retinoic acid metabolic genes during cochlear morphogenesis

Mutational analysis of HOXA2 and SIX2 in a Bronx population with isolated microtia

Identification of putative retinoic acid target genes downstream of mesenchymal Tbx1 during inner ear development

709: Gene expression profiling of lymphoblastic cell lines from monosomy 1p36 patients reveals differential regulation (expression) of cardiac and neurologic relevant genes

Tbx1 regulates mesenchymal–epithelial signaling necessary for inner ear development

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