| Literature DB >> 28276201 |
Philippe Lemay1, Patrizia De Marco2, Alexandre Emond1, Dan Spiegelman3, Alexandre Dionne-Laporte3, Sandra Laurent3, Elisa Merello2, Andrea Accogli2, Guy A Rouleau3, Valeria Capra2, Zoha Kibar1.
Abstract
Neural tube defects, including spina bifida, are among the most common birth defects caused by failure of neural tube closure during development. They have a complex etiology involving largely undetermined environmental and genetic factors. Previous studies in mouse models have implicated the transcription factor Grhl3 as an important factor in the pathogenesis of spina bifida. In the present study, we conducted a resequencing analysis of GRHL3 in a cohort of 233 familial and sporadic cases of spina bifida. We identified two novel truncating variants: one homozygous frameshift variant, p.Asp16Aspfs*10, in two affected siblings and one heterozygous intronic splicing variant, p.Ala318Glyfs*26. We also identified five missense variants, one of which was demonstrated to reduce the activation of gene targets in a luciferase reporter assay. With the previously identified p.Arg391Cys variant, eight variants were found in GRHL3. Comparison of the variant rate between our cohort and the ExAC database identified a significant enrichment of deleterious variants in GRHL3 in the whole gene and the transactivation region in spina bifida patients. These data provide strong evidence for a role of GRHL3 as a predisposing factor to spina bifida and will help dissect the complex etiology and pathogenic mechanisms of these malformations.Entities:
Keywords: GRHL3; molecular inversion probes; neural tube defects; spina bifida; whole-exome sequencing
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Year: 2017 PMID: 28276201 DOI: 10.1002/humu.23214
Source DB: PubMed Journal: Hum Mutat ISSN: 1059-7794 Impact factor: 4.878