Recent reports have implicated the "thermolabile" (T) variant of methylenetetrahydrofolate reductase (MTHFR) in the causation of folate-dependent neural tube defects (NTDs). We report herein the largest genetic study of NTD cases (n=271) and families (n=218) to date, establishing that, in Ireland, the "TT" genotype is found in 18.8% of cases versus 8.3% of controls (odds ratio 2.57; confidence interval [CI] 1.48-4.45; P=.0005). The maternal and paternal TT genotypes have intermediate frequencies of 13.8% and 11.9%, respectively, indicating that the predominant MTHFR-related genetic effect acts via the TT genotype of the developing embryo. Analysis of the 218 family triads of mother, father, and affected child with log-linear models supports this interpretation, providing significant evidence that the case TT genotype is associated with NTDs (P=.02) but no evidence of a maternal TT genotypic effect (P=. 83). The log-linear model predicted that the risk of NTDs conferred by the case TT genotype is 1.61 (CI 1.06-2.46), consistent with the paramount importance of the case TT genotype in determining risk. There is no compelling evidence for more than a modest additional risk conferred by a maternal TT genotype. These results favor a biological model of MTHFR-related NTD pathogenesis in which suboptimal maternal folate status imposes biochemical stress on the developing embryo, a stress it is ill-equipped to tolerate if it has a TT genotype.
Thermolabile 5,10-methylenetetrahydrofolate reductase (MTHFR) is the first folate-related variant to be associated with an increased risk of neural tube defects (NTDs). The variant causes high plasma homocysteine levels and reduced red cell folate (RCF) levels, both of which have also been linked to an increased risk of NTDs. We examined the relationship between folate status and presence of the common mutation MTHFR C677T in 82 NTD-affected and 260 control mothers. Homozygosity for the TT genotype was associated with very low folate status among both the cases (n = 13) and the controls (n = 21). However, after exclusion of TT homozygotes, only 10% of the remaining 240 controls had RCF levels less than 200 microg/L compared with 29% of the 69 cases (odds ratio, 3.67; 95% confidence interval, 1.88-7.18; P < 0.001), and those with RCF less than 150 microg/L had eight times higher risk of NTD than subjects with levels over 400 microg/L. Plasma homocysteine levels of non-TT cases were also higher than those of controls (P = 0.047). This study shows that homozygosity for the C677T MTHFR variant cannot account for reduced blood folate levels in many NTD-affected mothers. Thus, a strategy of genetic screening of all childbearing women for this variant would be ineffective as a method of primary prevention of NTDs. The data suggest that low maternal folate status is itself the major determinant of NTD risk, or else that other folate-dependent genetic variants confer risk through the reduction of folate levels. These results emphasize the importance of a food-fortification program as a population strategy for reducing the occurrence of NTDs.
The human T developmental gene has been implicated in the etiology of neural tube defects (NTDs) on the basis both of mouse studies of its homologue, T (Brachyury), and of allelic association in a Caucasian population. We have investigated the frequency of the T allelic variant TIVS7-2 in 218 Irish NTD case-parent triads. This population showed the same trend as previously reported, with an excess of the TIVS7-2 allele among cases. Log-linear modeling of case and maternal genotypic effects within families indicated that TIVS7-2 was elevated in cases (relative risk, RR = 1.36) but not in mothers (RR = 0.91). The TIVS7-2 allele is markedly associated with cases born before 1980 (RR = 2.09; CI = 1.23-3.55; corrected p = 0.030), but not with more recent cases (RR = 0.92). Cases carrying a TIVS7-2 allele did not show any increased tendency to be homozygous for the thermolabile variant of the folate-dependent enzyme 5,10-methylene tetrahydrofolate reductase, which is an established genetic risk factor for NTDs. Since the incidence of NTDs has declined markedly in Ireland over the last few decades, we suggest that the T-associated risk is potentiated by nutritional or environmental risk factor(s), the impact of which have been diminishing over time.
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