Faculty Bibliography

Neural tube defects (NTD) are common malformations resulting from incomplete closure of the neural tube in the first month after conception. Since genetic deficiencies in folate-dependent homocysteine metabolism have been identified in NTD families, we investigated a common variant in betaine-homocysteine methyltransferase (BHMT), 742G-->A (R239Q), as a genetic modifier of NTD risk. Genotypes, nutrient levels, and plasma total homocysteine (tHcy) were assessed in 54 patients with spina bifida, 57 mothers of patients, 93 control children, and 86 mothers of controls. The QQ genotype (present in 17% and 7% of the control and case mothers, respectively, and in 12% and 6% of the control and case children, respectively) was associated with a decreased risk of NTD (odds ratios of 0.52 (95% CI 0.13-2.05) for children and 0.37 (95% CI 0.11-1.22) for mothers). The small sample size limited the statistical power of the analyses, but these decreases, although not statistically significant, are compatible with a protective effect. We did not observe statistically-significant genotype-dependent differences in plasma homocysteine, although women with the QQ genotype did have lower homocysteine; in children, the mean homocysteine level was higher in the QQ group. This inconsistency could be explained by the fact that age is a strong determinant of homocysteine in children and the QQ group was on average older than the other genotype groups. Our study suggests that the Q allele of the R239Q mutation may decrease risk of the condition. This warrants further investigation of its relationship with the development of NTD.

Methylenetetrahydrofolate reductase (MTHFR) synthesizes 5-methyltetrahydrofolate, a major methyl donor for homocysteine remethylation to methionine. Severe MTHFR deficiency results in marked hyperhomocysteinemia and homocystinuria. Patients display developmental delay and a variety of neurological and vascular symptoms. Cloning of the human cDNA and gene has enabled the identification of 29 rare mutations in homocystinuric patients and two common variants [677C>T (A222V) and 1298A>C (E429A)] with mild enzymatic deficiency. Homozygosity for 677C>T or combined heterozygosity for both polymorphisms is associated with mild hyperhomocysteinemia. In this communication, we describe four novel mutations in patients with homocystinuria: two missense mutations (471C>G, I153M; 1025T>C, M338T), a nonsense mutation (1274G>A, W421X), and a 2-bp deletion (1553delAG). We expressed the 1025T>C mutation as well as two previously reported amino acid substitutions [983A>G (N324S) and 1027T>G (W339G)] and observed decreased enzyme activity at 10%, 36%, and 21% of control levels, respectively, with little or no effect on affinity for 5-methyltetrahydrofolate. One of these mutations, 983A>G (N324S), showed flavin adenine dinucleotide (FAD) responsiveness in vitro. Expression of these mutations in cis with the 677C>T polymorphism, as observed in the patients, resulted in an additional 50% decrease in enzyme activity. This report brings the total to 33 severe mutations identified in patients with severe MTHFR deficiency.

Hyperhomocysteinemia, a risk factor for cardiovascular disease, can be caused by genetic mutations in enzymes of homocysteine metabolism. Homocysteine remethylation to methionine is catalyzed by folate-dependent methionine synthase, or by betaine-homocysteine methyltransferase (BHMT), which utilizes betaine as the methyl donor. Since genetic variants in folate-dependent remethylation have been reported to increase risk for cardiovascular disease and other common disorders, we screened BHMT for sequence changes that might alter risk for coronary artery disease (CAD). A variant in exon 6-R239Q-was identified. The frequency of this change was examined in 504 individuals who had undergone coronary angiography and were stratified into controls (those with no or mild disease) and cases (those with significant [>50% reduction in luminal diameter stenosis] 1-, 2-, 3-vessel disease). Although this variant did not affect plasma homocysteine, the QQ genotype was present in higher frequency in those with no or mild disease, compared with those with significant disease (11 vs. 6%), suggesting that it may decrease risk of CAD; a statistically-significant decrease was seen in the older subjects (13 vs. 7%). Multivariate analysis for the entire group revealed an odds ratio of 0.48 (95% CI: 0.21-1.06) for the QQ genotype; this association was similar in the younger (OR=0.36; 95% CI: 0.09-1.41) and older subjects (OR=0.42; 95% CI: 0.15-1.18). Our study suggests that the Q allele of the R239Q mutation may decrease the risk of CAD and that this variant warrants additional investigation of its relationship with the development of CAD as well as other homocysteine-dependent disorders.