CHD7 represses the retinoic acid synthesis enzyme ALDH1A3 during inner ear development
Hui Yao, Sophie F. Hill, Jennifer M. Skidmore, Ethan D. Sperry, Donald L. Swiderski, Gilson J. Sanchez, Cynthia F. Bartels, Yehoash Raphael, Peter C. Scacheri, Shigeki Iwase, Donna M. Martin
Hui Yao, Sophie F. Hill, Jennifer M. Skidmore, Ethan D. Sperry, Donald L. Swiderski, Gilson J. Sanchez, Cynthia F. Bartels, Yehoash Raphael, Peter C. Scacheri, Shigeki Iwase, Donna M. Martin
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Research Article Development Neuroscience

CHD7 represses the retinoic acid synthesis enzyme ALDH1A3 during inner ear development

Abstract

CHD7, an ATP-dependent chromatin remodeler, is disrupted in CHARGE syndrome, an autosomal dominant disorder characterized by variably penetrant abnormalities in craniofacial, cardiac, and nervous system tissues. The inner ear is uniquely sensitive to CHD7 levels and is the most commonly affected organ in individuals with CHARGE. Interestingly, upregulation or downregulation of retinoic acid (RA) signaling during embryogenesis also leads to developmental defects similar to those in CHARGE syndrome, suggesting that CHD7 and RA may have common target genes or signaling pathways. Here, we tested three separate potential mechanisms for CHD7 and RA interaction: (a) direct binding of CHD7 with RA receptors, (b) regulation of CHD7 levels by RA, and (c) CHD7 binding and regulation of RA-related genes. We show that CHD7 directly regulates expression of Aldh1a3, the gene encoding the RA synthetic enzyme ALDH1A3 and that loss of Aldh1a3 partially rescues Chd7 mutant mouse inner ear defects. Together, these studies indicate that ALDH1A3 acts with CHD7 in a common genetic pathway to regulate inner ear development, providing insights into how CHD7 and RA regulate gene expression and morphogenesis in the developing embryo.

Authors

Hui Yao, Sophie F. Hill, Jennifer M. Skidmore, Ethan D. Sperry, Donald L. Swiderski, Gilson J. Sanchez, Cynthia F. Bartels, Yehoash Raphael, Peter C. Scacheri, Shigeki Iwase, Donna M. Martin

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Figure 9

Model depicting the influences of CHD7 and RA signaling on gene expression.

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Model depicting the influences of CHD7 and RA signaling on gene expressi...
In the cytoplasm, ALDH1A3 catalyzes the oxidation of retinaldehyde to retinoic acid (RA). RA then enters the nucleus and binds RA receptor (RAR). RAR forms a heterodimer with retinoid receptor (RXR), and the complex binds RA responsive elements (RAREs) to regulate transcription of downstream genes. Shown are three potential interactions between CHD7 and RA that we investigated in this study. In the first potential mechanism, CHD7 forms a complex with RAR/RXR heterodimers that acts to activate transcription of downstream target genes. In the second potential mechanism, RAR/RXR heterodimers bind upstream of CHD7 to regulate its transcription. In the third potential mechanism, CHD7 binds upstream of ALDH1A3, repressing its transcription. Our results provide evidence against the first two mechanisms, in favor of the third.