Background: There is compelling evidence that the risk of spina bifida, a malformation of the caudal neural tube, is associated with maternal and/or embryonic disturbances in folate/homocysteine metabolism. Hence, functional variants of genes that influence folate/homocysteine metabolism constitute a biologically plausible group of candidate risk factors for spina bifida and other neural tube defects. One such candidate is ABCC2, the gene encoding ABCC2, (a.k.a. canalicular multispecific organic anion transporter [cMOAT], multidrug resistance related protein 2 [MRP2]), a member of the ABC transporter family that effluxes natural folates and anti-folate drugs such as methotrexate.
Methods: The association between the risk of spina bifida and both the maternal and embryonic ABCC2 C(-24)T genotype was evaluated by using the transmission disequilibrium test and log-linear modeling.
Results: These analyses provided no evidence that the risk of spina bifida was significantly related to either the maternal or embryonic ABCC2 C(-24)T genotype.
Conclusions: The results of the present analyses suggest that the C(-24)T variant of the ABCC2 gene is not a major determinant of spina bifida risk.
Copyright 2004 Wiley-Liss, Inc.