Mouse models for neural tube closure defects

doi:10.1093/hmg/9.6.993

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Human Molecular Genetics, 2000, Vol. 9, No. 6 993-1000
© 2000 Oxford University Press

Mouse models for neural tube closure defects

Diana M. Juriloff⁺ and Muriel J. Harris

Department of Medical Genetics, University of British Columbia, 6174 University Boulevard, Vancouver, British Columbia, Canada V6T 1Z3

Neural tube closure defects (NTDs), in particular anencephalyand spina bifida, are common human birth defects (1 in 1000),their genetics is complex and their risk is reduced by periconceptionalmaternal folic acid supplementation. There are >60 mousemutants and strains with NTDs, many reported within the past2 years. Not only are NTD mutations at loci widely heterogeneousin function, but also most of the mutants demonstrate variablelow penetrance and some show complex inheritance patterns (e.g.SELH/Bc, Abl/Arg, Mena/Profilin1). In most of these mouse models,the NTDs are exencephaly (equivalent to anencephaly) or spinabifida or both, reflecting failure of neural fold elevationin well defined, mechanistically distinct elevation zones. NTDrisk is reduced in various models by different maternal nutrientsupplements, including folic acid (Pax3, Cart1, Cd mutants),inositol (ct) and methionine (Axd). Lack of de novo methylationin embryos (Dnmt3b-null) leads to NTD risk, and we suggest apotential link between methylation and the observed female excessamong cranial NTDs in several models. Some surprising NTD mutants(Gadd45a, Terc, Trp53) suggest that genes with a basic mitoticfunction also have a function specific to neural fold elevation.The genes mutated in several mouse NTD models involve actinregulation (Abl/Arg, Macs, Mena/Profilin1, Mlp, Shrm, Vcl),support the postulated key role of actin in neural fold elevation,and may be a good candidate pathway to search for human NTDgenes.

⁺ To whom correspondence should be addressed. Tel: +1 604 8225786; Fax: +1 604 822 5348; Email: juriloff@interchange.ubc.ca

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