EC:1.5.7.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.5.7.1 (methylenetetrahydrofolate reductase)
2,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This article presents the research of the Nijmegen homocysteine team on birth defects and vascular disease. Hyperhomocysteinemia was found in women who gave birth to offspring with neural tube defects (NTDs) and other birth defects and in women with vascular disease. Elevated homocysteine levels in the blood plasma can be explained by lack of B vitamins (folic acid), mutation of the 5,10-methylenetetrahydrofolate reductase (MTHFR) genes, or both. Genetic mutations were found on the first chromosome (677 C T and 1298 A-C) and can explain up to 50% of the protective effect of folic acid against NTDs. The inborn error of methionine-homocysteine metabolism was also found in cases with recurrent early pregnancy loss, schisis, congenital heart defects, and vascular problems such as placental abruption, infarcts, and fetal growth retardation. One of the most exciting medical findings of recent years is that folic acid can prevent NTDs. This might also hold true for other birth defects and vascular disease.
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PMID:Open or closed? A world of difference: a history of homocysteine research. 973 77

About 5% of population have a highly, while other 15% a moderately elevated plasma homocysteine level. Hyperhomocysteinemia may be responsible about 10-20% of coronary artery, 40% of cerebrovascular and 60% of peripheral vascular diseases. There in an inverse relationship between folate, cobalamin and pyridoxine intake or blood level and plasma homocysteine level. In addition, the intake of these three B vitamins can reduce high plasma homocysteine level. Folate-folic acid seems to be the most important in homocysteine reduction due to the compensation of thermolabile methylenetetrahydrofolate reductase insufficiency, however, a milder impact of cobalamin any pyridoxine (mainly following a methionine load test) is also proved. There are possibilities to reduce risk associated with elevated homocysteine: e. g. dietary supplementation or food fortification. In Hungary bread enriched by folic acid, cobalamin and pyriodixine might reduce rate of vascular diseases due to hyperhomocysteinemia.
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PMID:[The role of hyper-homocysteinemia in the etiology of some vascular diseases]. 976 88

Periconceptional folate prevents neural tube defects (NTD) by a mechanism which is unclear. The present study found significant changes in the equilibrium of the homocysteine remethylation cycle in NTD affected mothers, possibly involving B12-dependent methionine synthase or 5,10-methylenetetrahydrofolate reductase. Data were consistent with impaired Hcy remethylation leading to poor regeneration of H4PteGlu1, the main intracellular precursor of all folates. This lesion leads to cellular folate deficiency indicated by a significantly lower radioassay RBC folate and 5CH3H4PteGlu4 in affected mothers. The drop in this tetraglutamate is associated with an increase in the abundance of longer chain oligo-gamma-glutamyl folate, again reflecting the underlying folate deficiency. This effect may compromise purine, DNA-thymine, and methionine production, particularly during embryogenesis when folate demand is high. At this time serine hydroxymethyltransferase may play a critical role in conserving H4PteGlu1 for purine synthesis. Many of these depletion effects were corrected with folate supplementation for 1 month.
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PMID:Impaired regeneration of monoglutamyl tetrahydrofolate leads to cellular folate depletion in mothers affected by a spina bifida pregnancy. 978 91

Hyperhomocysteinemia, a risk factor for vascular disease, is related to vitamin B12, vitamin B6, and especially folate deficiency, or to genetic factors such as mutations in methylenetetrahydrofolate reductase (MTHFR), an enzyme involved in the remethylation pathway of homocysteine to methionine. Recently, a C677 --> T mutation identified in the MTHFR gene was found to be frequently associated with decreased MTHFR activity and an elevated plasma homocysteine concentration. Since hyperhomocysteinemia seems to be determined by both genetic and environmental factors, we studied the interactions between MTHFR (phenotype and genotype) and folate status, including methyltetrahydrofolate (methylTHF), the product of MTHFR, on the homocysteine concentration in 52 healthy subjects, (28 women and 24 men; mean age, 32.7 years). MTHFR activity seems to be dependent on folate status, as shown by a lower activity in folate-deficient subjects and a return to normal values after supplementation with folic acid, and also by a decreased enzymatic activity on phytohemagglutinin (PHA)-stimulated lymphocytes grown in a folic acid-deficient medium. Conversely, the C677 --> T mutation seems to influence folate metabolism. Subjects who were homozygous for this mutation (+/+) had significantly higher plasma homocysteine and lower plasma folate and total and methylfolate levels in red blood cells (RBCs) than heterozygous (+/-) and normal (-/-) subjects. The ratio of RBC methylfolate to RBC total folate was, respectively, 0.27 in +/+, 0.66 in +/-, and 0.71 in -/-. This mutation seems to have an impact on methylTHF generation. These data illustrate the interactions between nutritional and genetic factors.
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PMID:Plasma homocysteine levels related to interactions between folate status and methylenetetrahydrofolate reductase: a study in 52 healthy subjects. 982 23

An increased total plasma homocysteine level is an established risk factor for atherosclerotic vascular disease. The plasma level of homocysteine is influenced by both environmental and genetic factors. An important genetic determinant of plasma homocysteine is a common amino acid dimorphism (Ala222Val) in the methylenetetrahydrofolate reductase (MTHFR) gene. Individuals homozygous for the Val allele have significantly higher homocysteine levels than those with an Ala/Val or Ala/Ala genotype. Moreover, the Val/Val genotype has been claimed to be a strong genetic risk factor for atherosclerosis. The aim of the present study is: (1) to determine the risk associated with the MTHFR dimorphism by comparing the genotype distribution in patients with premature atherosclerosis with that in a group of healthy controls; and (2) to investigate the relationship between the MTHFR genotype and parameters of homocysteine metabolism. The patient group consisted of 257 consecutive referred individuals with angiographically proven premature ( <50 years of age) arterial disease (coronary, and/or peripheral vascular disease). A total of 272 healthy hospital workers without a history of vascular disease were selected as a control group. The MTHFR-genotype was determined by PCR and gel-electrophoresis. A methionine-loading test was performed on 245 patients, and, in addition to homocysteine, levels of folate and vitamin B12 were measured. We found a strong correlation between MTHFR genotype and plasma homocysteine levels both before and after methionine loading. In addition, the MTHFR genotype seems important for the inverse relationship between homocysteine and folate and vitamin B12 levels. Lastly, the MTHFR genotype distribution was not different between patient and control groups. MTHFR genotype is a strong determinant of plasma homocysteine levels. Moreover, the plasma level of folate, which by itself influences homocysteine levels, is also dependent on the MTHFR genotype. In Val/Val genotypes, low levels of both folate and B12 lead to a relatively large increase in homocysteine levels. Nevertheless, the MTHFR genotype does not increase the risk for premature coronary artery disease.
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PMID:The effect of a common methylenetetrahydrofolate reductase mutation on levels of homocysteine, folate, vitamin B12 and on the risk of premature atherosclerosis. 986 49

We examined the relationship between a functional polymorphism (667C-->T, ala-->val) of the methylenetetrahydrofolate reductase gene (MTHFR) and the risk of colorectal adenomas in the prospective Nurses' Health Study. Among 257 incident polyp cases and 713 controls, the MTHFR val/val polymorphism [relative risk (RR) = 1.35, 95% confidence interval (CI) 0.84-2.17] was not significantly associated with risk of adenomas. This lack of association was observed for both small (RR = 1.36, 95% CI 0.76-2.45) and large (RR = 1.32, 95% CI 0.66-2.66) adenomas. Furthermore, there was no significant interaction between this polymorphism and consumption of either folate, methionine or alcohol. We also examined the relationship of a newly identified polymorphism (asp919gly) of the methionine synthase gene (MS) with the risk of colorectal adenomas in the same population. The MS gly/gly polymorphism was also not significantly associated with risk of colorectal adenomas (RR = 0.66, 95% CI 0.26-1.70). These results, which need to be confirmed in other studies, suggest that the MTHFR val/val polymorphism, which has been previously inversely associated with risk of colorectal cancer, plays a role only in a late stage (adenoma-->carcinoma) of colorectal tumorigenesis, and/or may protect against malignant transformation in the subset of benign adenomas, which may progress to malignancy.
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PMID:A prospective study of methylenetetrahydrofolate reductase and methionine synthase gene polymorphisms, and risk of colorectal adenoma. 988 67

The sulfur-containing amino acid, homocysteine, is formed from the essential amino acid methionine, and a number of B vitamins are involved in methionine metabolism. Pyridoxine, vitamin B6, is a cofactor for cystathionine beta synthase, which mediates the transformation of homocysteine to cystathionine, the initial step in the transsulfuration pathway and the urinary excretion of sulfur. In a normal diet there is conservation of the carbon skeleton, and about 50% of the homocysteine formed is remethylated to methionine via steps that require folic acid and vitamin B12. A deficiency of any of these three vitamins leads to modest homocyst(e)ine elevation, as does diminished renal function, both of which are common in the elderly. It is also established that homocyst(e)ine elevation of this order is associated with increased cardiovascular risk but is also associated with most established risk factors, although it is thought to be an independent contributor. In the inborn error of metabolism homocystinuria due to cystathionine beta synthase deficiency there is greatly increased circulating homocyst(e)ine and a clear association with precocious vascular disease. In about 50% of these patients there is a vascular event before the age of 30 years. The homocysteine-induced adverse vascular changes appear to result from endothelial and smooth muscle cell effects and increased thrombogenesis. We have documented a highly significant reduction in the occurrence of vascular events during 539 patient years of treatment in 32 patients with cystathionine beta synthase deficiency (mean age 30 years, range 9-66 years) by aggressive homocyst(e)ine lowering with pyridoxine, folic acid, and B12 (p = 0.0001). The 15 pyridoxine nonresponsive patients also received oral betaine. Although a cause and effect relationship is postulated for the increased cardiovascular risk associated with mild homocysteine elevation, a common cause of this elevation is the methylenetetrahydrofolate reductase C677T mutation. Homozygotes occur in about 11% of Caucasian populations. However, the mutation is not associated with increased coronary risk. Since mild homocysteine elevation is easily normalized by B vitamin supplementation, usually with folic acid, it remains for controlled clinical trials of this inexpensive therapy to determine whether normalizing mild homocyst(e)ine elevation reduces cardiovascular risk.
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PMID:B vitamins and homocysteine in cardiovascular disease and aging. 992 44

Methionine synthase and 5,10-methylenetetrahydrofolate reductase (MTHFR) sequentially catalyze the remethylation of homocysteine to methionine. A point mutation in the encoding region of the methionine synthase gene, which results in substitution of an aspartic acid for a glycine residue (D919G), has been identified in patients of the cblG genetic complementation group; these patients exhibit significantly decreased methionine synthase activity. Nevertheless, the D919G mutation has also been reported to be common in the general population. In this study, we analyzed the distribution of methionine synthase D/G polymorphism in the Japanese population and examined the extent to which it is associated with altered homocysteine metabolism and late-onset vascular diseases. We studied 215 patients with coronary artery disease, 251 patients with histories of ischemic stroke, and 257 control subjects. The methionine synthase genotype was analyzed by polymerase chain reaction followed by HaeIII digestion; allele frequencies for the D919G variant of the enzyme proved to be similar in all 3 subject groups (control subjects, 0.17; coronary artery disease patients, 0. 17; and ischemic stroke patients, 0.19). Furthermore, in patients with ischemic stroke, plasma levels of homocyst(e)ine and folate were similar, irrespective of methionine synthase genotype. Thus, the methionine synthase D919G mutation was found to be common in the Japanese general population, and it appears unlikely that this polymorphism has a major effect on homocysteine metabolism and/or the onset of vascular diseases.
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PMID:Polymorphism of the methionine synthase gene : association with homocysteine metabolism and late-onset vascular diseases in the Japanese population. 997 10

Our studies on interactions of a folate-metabolizing gene polymorphism and dietary intake in colorectal tumorigenesis demonstrate the potential importance of studying interactions between genotype and environmental exposure in relation to cancer risk. We observed an inverse association of a polymorphism (667C --> T, ala --> val) in the methylenetetrahydrofolate reductase (MTHFR) gene with colorectal cancer but not with colorectal adenomas. The inverse association of methionine and adverse association of alcohol with colorectal cancer were stronger among val/val individuals. These interactions were not present in studies of colorectal adenomas. Our studies illustrate that studying gene-environment interactions in relation to cancer can be of importance in clarifying cancer etiology as well as pointing to preventive dietary modifications.
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PMID:MTHFR polymorphism, methyl-replete diets and the risk of colorectal carcinoma and adenoma among U.S. men and women: an example of gene-environment interactions in colorectal tumorigenesis. 1006 32

The alterations of the metabolism of methionine determining an accumulation of homocysteine in blood (hyperhomocysteinemia) recognize a multifactorial etiology, hereditary as well as acquired. To date several case-control studies have documented that the condition of hyperhomocysteinemia can be considered an independent risk factor of coronary disease and its noxious effects are dose-dependent. It exerts its effect by different mechanisms both prothrombotic and endothelial. In our study we started from an initial cohort of 2227 subjects (1210 males, 1017 females) aged between 45 and 64 years among which we selected 22 persons with at least 2 first-degree relatives below age 50 who had had either a major cardiovascular event (acute myocardial infarction or sudden death) or angiographically documented cardiac disease. We reconstructed the proper pedigrees obtaining 22 families in whom we identified four main subgroups to carry out analyses and comparisons: case-control, composed respectively of all the subjects who survived a major cardiovascular event or a coronary disease documented angiographically and clinically healthy subjects; affected line and non affected line, composed respectively of members belonging to the family line of the proband and members of collateral family line. Each of the subjects involved in the study underwent a complete history regarding job and sports activities, a standardized physical examination, 12-lead digital ECG according to the European Standard Communication Protocol. A blood sample was taken in fasting conditions to determine total cholesterol, HDL and LDL cholesterol, triglycerides, glycemia, fibrinogen, plasma homocysteine. The results indicate how among the cases there were more subjects with homocysteine higher than the 95 degrees percentile in males alone (p = 0.03), the estimated odds ratio calculated from Fisher's test was 8.34 (95% confidence interval 1.32-52.7). Despite the fact that mean age was significantly lower (p = 0.01) in males of the affected line compared to those of the non affected line, the results show much higher homocysteine values in the affected family line in both males and females: a difference quite evident in the distribution especially as regards the 95 degrees percentile. These results obtained in the subjects belonging to the same families emphasize that familial aggregation, which influences the sharing of the genetic patrimony, socio-cultural environment and food habits can induce a differential risk for homocysteinemia. The study of mutations of genes coding for the key enzymes of the metabolism of homocysteine, methylenetetrahydrofolate reductase and cystathionine beta-synthase, which we prepared, will enable use to evaluate the relative influence feeding habits and genetic factors have in the development of hyperhomocysteinemia.
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PMID:[A hyperhomocysteinemia study in a population with a familial factor for acute myocardial infarct and sudden cardiac death at a young age]. 1018 34

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