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The Role of Vitamin B12 in Fasting Hyperhomocysteinemia and Its Interaction with the Homozygous C677T Mutation of the Methylenetetrahydrofolate Reductase (MTHFR) Gene A Case-control Study of Patients with Early-onset Thrombotic Events

Journal: Thrombosis and Haemostasis
ISSN: 0340-6245
Issue: 2000: 83/4 (Apr) pp.520-636
Pages: 563-570

The Role of Vitamin B12 in Fasting Hyperhomocysteinemia and Its Interaction with the Homozygous C677T Mutation of the Methylenetetrahydrofolate Reductase (MTHFR) Gene A Case-control Study of Patients with Early-onset Thrombotic Events

Armando D’Angelo (1) , Antonio Coppola (2) , Pasquale Madonna (2) , Isabella Fermo (3) , Anna Pagano (2) , Giuseppina Mazzola (1) , Laura Galli (4) , Anna Maria Cerbone (2)
From the (1) Coagulation Service and Thrombosis Research Unit, (3) Department of Laboratory Medicine, (4) Epidemiology Unit, I.R. C.C.S. H. S. Raffaele, Milan, Italy, (2) Department of Clinical and Experimental Medicine, University of Naples "Federico I

Summary

Total fasting plasma homocysteine (tHcy), homozygosity for the C677T mutation of the methylenetetrahydrofolate reductase (MTHFR) gene and for the A2756G mutation of the methionine synthase (MS) gene, vitamin B12 and folate plasma levels were evaluated in 170 consecutive patients (89 M, 81 F; mean age 41 ± 12 yrs) with documented early-onset thrombosis (89 venous, 69 arterial, 12 both; mean age at first episode 36 ± 11 yrs), and in 182 age- and sex-matched healthy control subjects. Moderate hyperhomocysteinemia (HHcy, tHcy 19.5 M in men and 15 M in women) was detected in 45 patients (26.5%) and in 18 controls (9.9%, Mantel-Haenszel OR and 95% C.I. after stratification for arterial or venous thrombosis: 3.25, 1.78-5.91). The 677TT MTHFR genotype was not significantly more prevalent in patients (27.6%) than in controls (21.4%, RR = 1.42; 0.84-2.41), and markedly contributed to HHcy (Mantel-Haenszel RR after stratification for case/control status: 8.29, 4.61-14.9). The 2756GG MS genotype, observed in 4 patients (2.4%) and 8 controls (4.4%), was not associated to HHcy. tHcy was negatively correlated to folate and vitamin B12 levels, with better correlation found in subjects with the 677TT mutation (r = -0.42 and -0.25) than with the 677CC or CT MTHFR genotype (r = -0.37 and -0.11). However, folate was similar in patients and controls and vitamin B12 was higher in patients (460 ± 206 vs. 408 ± 185 pg/ml, p = 0.011). In a generalized linear model, 44% of the variation in tHcy levels was explained by folate and vitamin B12 levels, the MTHFR genotype, gender, and by the interaction of the MTHFR genotype with folate (p 0.028); the interactions of vitamin B12 with the MTHFR genotype, gender and patient/control status also significantly contributed to the variation in tHcy levels (p 0.028). A 4-week administration of 5-methyltetrahydrofolate (15 mg/day) markedly lowered plasma tHcy in 24 patients with MTHFR 677TT genotype, but the response to treatment correlated with vitamin B levels (p = 0.023). Subjects carrying the MTHFR 677TT genotype have higher folate and vitamin B12 requirements irrespective of the A2756G polymorphism of the MS gene. Yet unidentified abnormalities of MS or of any of the enzymes participating in the synthesis of methylated vitamin B12 may play an important role in the phenotypic expression of moderate hyperhomocysteinemia.