Inositol- and folate-resistant neural tube defects in mice lacking the epithelial-specific factor Grhl-3

Ting, SB; Wilanowski, T; Auden, A; Hall, M; Voss, AK; Thomas, T; Parekh, V; Cunningham, JM; Jane, SM

Author(s): Ting, SB; Wilanowski, T; Auden, A; Hall, M; Voss, AK; Thomas, T; Parekh, V; Cunningham, JM; Jane, SM;
Details: Publication Year 2003-12,Volume 9,Issue #12,Page 1513-1519
Journal Title: NATURE MEDICINE
Publication Type: Journal Article
Abstract: The neural tube defects (NTDs) spina bifida and anencephaly are widely prevalent severe birth defects. The mouse mutant curly tail (ct/ ct) has served as a model of NTDs for 50 years, even though the responsible genetic defect remained unrecognized. Here we show by gene targeting, mapping and genetic complementation studies that a mouse homolog of the Drosophila grainyhead (grh) gene, grainyhead- like- 3 (Grhl3), is a compelling candidate for the gene underlying the curly tail phenotype. The NTDs in Grhl3- null mice are more severe than those in the curly tail strain, as the Grhl3 alleles in ct/ ct mice are hypomorphic. Spina bifida in ct/ ct mice is folate resistant, but its incidence can be markedly reduced by maternal inositol supplementation periconceptually. The NTDs in Grhl3 (-/-) embryos are also folate resistant, but unlike those in ct/ ct mice, they are resistant to inositol. These findings suggest that residual Grhl3 expression in ct/ ct mice may be required for inositol rescue of folate- resistant NTDs.
Publisher: NATURE PUBLISHING GROUP
Keywords: CURLY-TAIL MOUSE; DEVELOPMENTAL TRANSCRIPTION FACTORS; CELL-PROLIFERATION; CHICK-EMBRYO; SPINA-BIFIDA; BMP ACTIVITY; FOLIC-ACID; DROSOPHILA; MUTANT; GRAINYHEAD
Publisher's Version: https://doi.org/10.1038/nm961
Terms of Use/Rights Notice: Refer to copyright notice on published article.

Creation Date: 2003-12-01 12:00:00