Increased expression of Grainyhead-like-3 rescues spina bifida in a folate-resistant mouse model

doi:10.1093/hmg/ddm221

Human Molecular Genetics Advance Access published online on August 24, 2007
Human Molecular Genetics, doi:10.1093/hmg/ddm221

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Increased expression of Grainyhead-like-3 rescues spina bifida in a folate-resistant mouse model

Peter Gustavsson, Nicholas D.E. Greene^,*, Dina Lad, Erwin Pauws, Sandra C.P. de Castro, Philip Stanier and Andrew J. Copp

Neural Development Unit, Institute of Child Health, University College London, London, WC1N 1EH, UK

^* Corresponding author: Nicholas D.E. Greene Neural Development Unit, Institute of Child Health, Guilford Street, London, WC1N 1EH, UK. Tel: +44 2079052217; Fax: +44 2078314366; Email: n.greene{at}ich.ucl.ac.uk

Received May 21, 2007; Revised August 3, 2007; Accepted August 12, 2007

Neural tube defects (NTDs), such as spina bifida, are commonand severe birth defects in humans but the underlying causesare poorly understood. The pathogenesis and etiology of spinabifida in the curly tail mouse closely resemble defects in humans,providing a well characterized model of NTDs. Grainyhead-like-3(Grhl3), which encodes a transcription factor, was recentlyidentified as a candidate gene for curly tail based on chromosomallocation and the occurrence of spina bifida in Grhl3 null mice.However, the causative curly tail mutation has not been established,while the relationship between Grhl3 gene expression and theknown cellular defect leading to NTDs in curly tail is unknown.Spina bifida in curly tail results from a cell type-specificproliferation defect in the hindgut endoderm, and we find thatGrhl3 is expressed specifically in this tissue during the finalstages of spinal neural tube closure in wild type embryos. Moreover,Grhl3 expression is diminished in the spinal region of neurulation-stagecurly tail embryos. Curly tail mice do not carry a coding regionmutation in Grhl3, however, we found a putative regulatory mutationupstream of the Grhl3 gene, which may be responsible for theexpression deficit. In order to test the hypothesis that spinabifida in curly tail mice results from insufficient expressionof Grhl3, we generated Grhl3-expressing curly tail mice by BAC-mediatedtransgenesis and demonstrate complete rescue of spina bifida.This study provides evidence for a critical role of diminishedGrhl3 expression in causing spinal NTDs in the curly tail mousemodel.

These authors contributed equally to this study.

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