The ATP-dependent chromatin remodeling enzyme CHD7 regulates pro-neural gene expression and neurogenesis in the inner ear

Hurd, E. A.; Poucher, Heather K.; Cheng, Katherine A.; Raphael, Yehoash; Martin, Donna M.

doi:10.1242/dev.047894

Cited by 112 publications

(135 citation statements)

References 55 publications

(80 reference statements)

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“…By E13.5, reporter expression was found throughout the otic lines are used. The most commonly used line is the depending on the strength of the fluorescent reporter COX ET.AL: Conditional Gene Expression in the Mouse Inner Ear Using Cre-loxP Pirvola et al 2002;Arnold et al 2006;Zelarayan et al 2007;Barrionuevo et al 2008;Jones et al 2008;Rickheit et al 2008;Grimsley-Myers et al 2009;Schultz et al 2009;Wang et al 2009;Yamamoto et al 2009;Deng et al 2010;Freyer and Morrow 2010;Haugas et al 2010;Hurd et al 2010;Hwang et al 2010;Sipe and Lu 2011 (Hebert and McConnell 2000), which has been reported to cause haploinsufficiency phenotypes that include proliferation in other organs (Shen et al 2006;Eagleson et al 2007;Siegenthaler et al 2008). However, no change in proliferation in the inner ear has been reported in several papers where proper controls of Foxg1-Cre mice (without the floxed allele) were used (Yamamoto et al 2009(Yamamoto et al , 2011Hartman et al 2010;Brown and Epstein 2011).…”

Section: Cre/creer Lines For the Developing Otic Vesicle And Otocystmentioning

confidence: 99%

Conditional Gene Expression in the Mouse Inner Ear Using Cre-loxP

Cox

Liu

Lagarde

et al. 2012

JARO

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In recent years, there has been significant progress in the use of Cre-loxP technology for conditional gene expression in the inner ear. Here, we introduce the basic concepts of this powerful technology, emphasizing the differences between Cre and CreER. We describe the creation and Cre expression pattern of each Cre and CreER mouse line that has been reported to have expression in auditory and vestibular organs. We compare the Cre expression patterns between Atoh1-CreER TM and Atoh1-CreER T2 and report a new line, Fgfr3-iCreER T2 , which displays inducible Cre activity in cochlear supporting cells. We also explain how results can vary when transgenic vs. knock-in Cre/CreER alleles are used to alter gene expression. We discuss practical issues that arise when using the Cre-loxP system, such as the use of proper controls, Cre efficiency, reporter expression efficiency, and Cre leakiness. Finally, we introduce other methods for conditional gene expression, including Flp recombinase and the tetracycline-inducible system, which can be combined with Cre-loxP mouse models to investigate conditional expression of more than one gene.

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Section: Cre/creer Lines For the Developing Otic Vesicle And Otocystmentioning

confidence: 99%

Conditional Gene Expression in the Mouse Inner Ear Using Cre-loxP

Cox

Liu

Lagarde

et al. 2012

JARO

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“…In a recent study, Chd7 was also shown to promote quiescence and maintenance of adult hippocampal neural stem cell populations [50]. Considering that Chd7 also promotes neural stem cell progenitor proliferation in the developing olfactory and otic placodes [51,52], these studies provide convincing evidence that CHD7 is essential for stem cell function in a variety of tissues. However, the precise mechanisms by which CHD7 regulates stem cell proliferation, quiescence, fate, or differentiation, which binding partners and genomic targets it associates with, and whether these mechanisms vary between developmental and postnatal stages remain to be determined.…”

Section: Chd Proteins and Neural Stem Cellsmentioning

confidence: 77%

“…In each organ thus far analyzed, Chd7 expression has been predictive of tissue or cellular defects in mutant mice. In the inner ear, Chd7 heterozygous mice display hypoplasia or aplasia of the lateral and posterior semicircular canals and innervation defects of the vestibular sensory epithelium [52,59]. Conditional knockout of Chd7 causes complete aplasia of vestibular and cochlear structures, reductions in fibroblast growth factor signaling, and decreased proliferation with reduced otic neural progenitors and reduced expression of proneural genes such as Ngn1 and Neurod1 [52].…”

Section: Chd Proteins In Human Diseasementioning

confidence: 99%

“…In the inner ear, Chd7 heterozygous mice display hypoplasia or aplasia of the lateral and posterior semicircular canals and innervation defects of the vestibular sensory epithelium [52,59]. Conditional knockout of Chd7 causes complete aplasia of vestibular and cochlear structures, reductions in fibroblast growth factor signaling, and decreased proliferation with reduced otic neural progenitors and reduced expression of proneural genes such as Ngn1 and Neurod1 [52]. These data indicate that CHD7 may function in some sensory tissues similarly as it does in brain neural stem cells, through regulation of critical molecular pathways that activate neurogenesis and inhibit gliogenesis.…”

Section: Chd Proteins In Human Diseasementioning

confidence: 99%

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Chromodomain Helicase DNA-Binding Proteins in Stem Cells and Human Developmental Diseases

Micucci

Sperry

Martin

2015

Stem Cells and Development

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“…CHD7 and KMTD2 interact with members of the same chromatin remodeling machine and have common target genes (Butcher et al, 2017;Schulz et al, 2014;Verhagen et al, 2014). TBX1 and CHD7 are both needed for normal PAA development, and CHD7 alters the expression of TBX1 in inner ear neurogenesis (Hurd, Poucher, Cheng, Raphael, & Martin, 2010;Randall et al, 2009). For EFTUD2 and ZEB2, only clinical overlap has been described so far (Luquetti et al, 2013;Wenger et al, 2014).…”

Section: Resultsmentioning

confidence: 99%

Clinical and molecular effects of CHD7 in the heart

Corsten‐Janssen

Scambler

2017

American J of Med Genetics Pt C

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Heart defects caused by loss-of-function mutations in CHD7 are a frequent cause of morbidity and mortality in CHARGE syndrome. Here we review the clinical and molecular aspects of CHD7 that are related to the cardiovascular manifestations of the syndrome. The types of heart defects found in patients with CHD7 mutations are variable, with an overrepresentation of atrioventricular septal defect and outflow tract defect including aortic arch anomalies compared to nonsyndromic heart defects. Chd7 haploinsufficiency in mouse is a good model for studying the heart effects seen in CHARGE syndrome, and mouse models reveal a role for Chd7 in multiple lineages during heart development. Formation of the great vessels requires Chd7 expression in the pharyngeal surface ectoderm, and this expression likely has an non-autonomous effect on neural crest cells. In the cardiogenic mesoderm, Chd7 is required for atrioventricular cushion development and septation of the outflow tract. Emerging knowledge about the function of CHD7 in the heart indicates that it may act in concert with transcription factors such as TBX1 and SMADs to regulate genes such as p53 and the cardiac transcription factor NKX2.5.

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The ATP-dependent chromatin remodeling enzyme CHD7 regulates pro-neural gene expression and neurogenesis in the inner ear

Cited by 112 publications

References 55 publications

Conditional Gene Expression in the Mouse Inner Ear Using Cre-loxP

Conditional Gene Expression in the Mouse Inner Ear Using Cre-loxP

Chromodomain Helicase DNA-Binding Proteins in Stem Cells and Human Developmental Diseases

Clinical and molecular effects of CHD7 in the heart

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