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

There is substantial evidence that the decreased risk of lung cancer with high intake of vegetables and fruits is linked to folate as a specific nutrient. Functional polymorphisms in genes encoding one-carbon metabolism enzymes, methylenetetrahydrofolate reductase (MTHFR C677T and A1,298C), methionine synthase (MTR A2,756G), methionine synthase reductase (MTRR A66G) and thymidylate synthase, influence folate metabolism and thus might be suspected of impacting on lung cancer risk. We therefore conducted a case-control study with 515 lung cancer cases newly and histologically diagnosed and 1,030 age- and sex-matched non-cancer controls to clarify associations with these five polymorphisms according to lung cancer subtype. Gene-environment interactions with smoking and drinking habit and folate consumption were also evaluated by logistic regression analysis. None of the polymorphisms showed any significant impact on lung cancer overall risk by genotype alone, but on histology-based analysis increase in MTHFR 677T and 1,298C alleles was associated with reduced risk of squamous/small cell carcinoma (P = 0.029), especially among heavy smokers (P = 0.035), whereas the MTHFR 677TT genotype was linked to decreased risk for these subtypes among heavy drinkers (odds ratio = 0.17, 95% confidence interval: 0.03-0.98). In addition, we found interactions between the MTRR A66G polymorphism and smoking (P = 0.015) and the MTHFR A1,298C polymorphism and alcohol consumption (P = 0.025) for risk of lung cancer overall. In conclusion, the results suggest that MTHFR polymorphisms contribute to risk of squamous/small cell carcinomas of the lung, along with possible interactions among folate metabolism-related polymorphisms and smoking/drinking habits. Further evaluation is warranted.
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PMID:Impact of one-carbon metabolism-related gene polymorphisms on risk of lung cancer in Japan: a case control study. 1746 11

Folate and methionine metabolism plays an essential role in both DNA synthesis and methylation. Polymorphisms in the genes of the folate-dependent enzymes have been shown to affect disease susceptibility. We conducted a Korean population-based case-control study to evaluate whether genetic variation in folate metabolism may have a role in the risk of multiple myeloma (MM). The study subjects were 173 patients with MM and 1,700 population-based controls. The polymorphisms studied include methylenetetrahydrofolate reductase (MTHFR) 677 C > T and 1298 A > C, methionine synthase (MS) 2756 A > G, methionine synthase reductase (MTRR) 66A > G, thymidylate synthase (TS) 28-bp repeat (2R-->3R) and 6-bp deletion/insertion. MS 2756 AG genotypes were associated with a 1.5-fold lower risk of MM (OR = 0.66, 95%CI; 0.43-0.99, P = 0.047). There was no association between MTHFR C677T, A1298C, MTRR A66G, TS 2R-->3R and 6-bp deletion/insertion polymorphisms and MM. These results suggest that MTHFR C677T, A1298C, MTRR A66G, TS 2R-->3R, and 6-bp deletion/insertion do not significantly factor into the pathogenesis of MM in the Korean population, but that MS A2756G polymorphism may play an important role.
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PMID:Polymorphisms involved in the folate metabolizing pathway and risk of multiple myeloma. 1754 37

Low consumption of vegetables and fruits, which leads to insufficient folate intake, is associated with increased risk of several types of cancer, including head and neck squamous cell carcinoma (HNSCC). Functional polymorphisms in genes encoding one-carbon metabolism enzymes, such as methylenetetrahydrofolate reductase (MTHFR C677T and A1298C), methionine synthase (MTR A2756G), methionine synthase reductase (MTRR A66G) and thymidylate synthase (TS), influence folate metabolism and thus might impact on HNSCC risk. We conducted a case-control study with 237 HNSCC cases newly and histologically diagnosed and 711 age- and sex-matched non-cancer controls to clarify associations with these five polymorphisms. Gene-environment interactions between polymorphisms and smoking and drinking habit and folate consumption were also evaluated by logistic regression analysis. Dietary folate intake was inversely associated with HNSCC risk. None of the polymorphisms showed any significant impact on HNSCC risk by genotype alone, but we found interactions between drinking habit and MTHFR C667T (P = 0.04), MTR A2756G (P = 0.04) and MTRR A66G (P = 0.03) polymorphisms. The results suggest that there may be interactions between one-carbon metabolism-related polymorphisms and alcohol drinking for HNSCC risk.
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PMID:One-carbon metabolism-related gene polymorphisms and risk of head and neck squamous cell carcinoma: case-control study. 1759 6

We tested whether the polymorphisms of the methylenetetrahydrofolate reductase gene, MTHFR C677T and A1298C, the methionine synthase gene, MTR A2756G, the methionine synthase reductase gene, MTRR A66G, and the thymidylate synthase gene, TYMS 2R-->3R, involved in folate and methionine metabolism, altered the risk for multiple myeloma (MM). Genomic DNA from 123MM patients and 188 controls was analysed by polymerase chain reaction and restriction digestion for the polymorphism analyses. The frequency of the MTR 2756 AG plus GG genotype was higher in patients than in controls (39.8% versus 23.4%, P=0.001). Individual carriers of the variant allele G had a 2.31 (95% CI: 1.38-3.87)-fold increased risk for MM compared with others. In contrast, similar frequencies of the MTHFR, the MTRR and the TYMS genotypes were seen in patients and controls. These results suggest, for the first time, a role for the MTR A2756G polymorphism in MM risk in our country, but should be confirmed by large-scale epidemiological studies with patients and controls age matched.
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PMID:Polymorphisms of methylenetetrahydrofolate reductase (MTHFR), methionine synthase (MTR), methionine synthase reductase (MTRR), and thymidylate synthase (TYMS) in multiple myeloma risk. 1765 28

Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by overexpression of cytokines and T cell accessory molecules, which is due to a reduction of DNA regulatory region methylation in T cells. It has been shown that polymorphic variants of genes encoding key enzymes of folate and methionine metabolism may have an effect on DNA methylation. Therefore, in patients with SLE (n = 106) and controls (n = 141) we examined the distribution of polymorphisms of genes encoding methionine synthase (MTR); 5,10-methylenetetrahydrofolate dehydrogenase, 5,10-methenyltetrahydrofolate cyclohydrolase and 10-formyltetrahydrofolate synthetase (MTHFD1); and methylenetetrahydrofolate reductase (MTHFR). We found that MTR 2756AG (919DG) or GG (919GG) genotype exhibited 2.005-fold increased risk of SLE (95% CI = 1.177-3.416, P = 0.0146). However, MTHFR 677C > T (A222V) and MTHFD1 1958G > A (R653Q) allele and genotype frequencies did not exhibit statistical differences between SLE patients and controls. Since MTR is located on 1q43, our findings confirm the significance of the role of 1q region and the methyl cycle in etiopathogenesis of SLE.
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PMID:MTR 2756 A > G polymorphism is associated with the risk of systemic lupus erythematosus in the Polish population. 1766 38

Mouse models that perturb homocysteine metabolism, including genetic mouse models that result in deficiencies of methylenetetrahydrofolate reductase, methionine synthase, methionine synthase reductase, and cystathionine beta-synthase, and a pharmaceutically induced mouse model with a transient deficiency in betainehomocysteine methyl transferase, have now been characterized and can be compared. Although each of these enzyme deficiencies is associated with moderate to severe hyperhomocyst(e)inemia, the broader metabolic profiles are profoundly different. In particular, the various models differ in the degree to which tissue ratios of S-adenosylmethionine to S-adenosylhomocysteine are reduced in the face of elevated plasma homocyst(e)ine, and in the distribution of the tissue folate pools. These different metabolic profiles illustrate the potential complexities of hyperhomocyst(e)inemia in humans and suggest that comparison of the disease phenotypes of the various mouse models may be extremely useful in dissecting the underlying risk factors associated with human hyperhomocyst(e)inemia.
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PMID:The many flavors of hyperhomocyst(e)inemia: insights from transgenic and inhibitor-based mouse models of disrupted one-carbon metabolism. 1769 66

We recently observed an association between combinations of polymorphisms in the methylenetetrahydrofolate reductase (MTHFR 677C > T or 1298A > C) and reduced folate carrier (RFC-1 80G > A) genes and the risk of a Down syndrome (DS) pregnancy in young Italian women. Others have observed an association between a methionine synthase (MTR 2756A > G) gene polymorphism and the risk of a DS offspring in Italy. Moreover, in a separate study, we observed an increased frequency of both binucleated micronucleated cells (BNMN) and chromosome malsegregation events in peripheral lymphocytes of mothers of DS individuals aged less than 35 years at conception (MDS) in respect to controls. The aim of the present study was to evaluate chromosome damage, measured by means of the micronucleus assay, in peripheral lymphocytes of a group of women (n = 34) who had a DS child in young age (<35 years) and in a control group (n = 35), and to correlate them with MTHFR 677C > T and 1298A > C, RFC-1 80G > A and MTR 2756A > G polymorphisms. We observed an increased frequency of BNMN in the MDS group compared to the control group (17.13 +/- 8.31 per thousand vs. 10.28 +/- 4.53 per thousand; P < 0.001), and, in the general population, a correlation between years of age and BNMN frequency (P = 0.05). A significant correlation between the frequency of BNMN and the MTHFR 677C > T polymorphism (P = 0.038) was also found. Present results indicate that MDS are more prone to chromosome damage than control mothers; moreover the contribution of folate and homocysteine metabolizing gene polymorphisms seems to have an effect on the baseline frequency of BNMN lymphocytes.
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PMID:Polymorphisms in folate and homocysteine metabolizing genes and chromosome damage in mothers of Down syndrome children. 1770 10

Cytosolic serine hydroxymethyltransferase (cSHMT) is key to intersection of folate-metabolic pathway, participating in the pyrimidine synthesis for DNA repair. Based on the hypothesis that variants of the cSHMT C1420T together with methionine synthase (MS A2756G) and 5,10-methylenetetrahydrofolate reductase (MTHFR C677T and A1298C) are associated with breast cancer, we performed a multigenic case-control study of the effects to breast cancer risk of four polymorphisms of folate-metabolizing genes against duration of estrogen exposure. Support of our hypothesis came from the following observations: (i) Allelic frequency of cSHMT C1420T was higher in the controls than in the cases, manifesting a 0.56-fold risk reduction in breast cancer (95%CI = 0.39-0.80); and this association was more significant in those women are susceptible to time of estrogen exposure. (ii) A joint effect of the cSHMT and MS polymorphisms significantly reduced susceptibility to breast cancer (aOR = 0.55; 95%CI = 0.34-0.88). (iii) There was a trend toward a reduced risk of breast cancer in women carrying a greater number of putative low-risk genotypes (Ptrend = 0.048). (iv) This synergistic effects on risk reduction was significantly interacted with length of estrogen exposure, exhibiting a longer time of estrogen exposure (> or =30 years), menarche-to-FFTP interval (>11 years), age at the first full-term pregnancy (< or =25 years), and body mass index (< or =24). In conclusion, our study provides support to account for the preferential role of cSHMT polymorphism to lower risk of female breast cancer, and such reduced risk would be more significant in carriers with the polymorphisms of MS and MTHFR genes.
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PMID:Polymorphism of cytosolic serine hydroxymethyltransferase, estrogen and breast cancer risk among Chinese women in Taiwan. 1789 78

There are now four genetic mouse models that induce hyperhomocyst(e)inemia by decreasing the activity of an enzyme involved in homocysteine metabolism: cystathionine beta-synthase, methylenetetrahydrofolate reductase, methionine synthase and methionine synthase reductase. While each enzyme deficiency leads to murine hyperhomocyst(e)inemia, the accompanying metabolic profiles are significantly and often unexpectedly, different. Deficiencies in cystathionine beta-synthase lead to elevated plasma methionine, while deficiencies of the remaining three enzymes lead to hypomethioninemia. The liver [S-adenosylmethionine]/[S-adenosylhomocysteine] ratio is decreased in mice lacking methylenetetrahydrofolate reductase or cystathionine beta-synthase, but unexpectedly increased in mice with deficiencies in methionine synthase or methionine synthase reductase. Folate pool imbalances are observed in complete methylenetetrahydrofolate reductase deficiency, where methyltetra-hydrofolate is a minor component, and in methionine synthase reductase deficiency, where methyltetrahydrofolate is increased relative to wild-type mice. These differences illustrate the potential diversity among human patients with hyperhomocyst(e)inemia, and strengthen the argument that the pathologies associated with the dissimilar forms of the condition will require different treatments.
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PMID:Defects in homocysteine metabolism: diversity among hyperhomocyst(e)inemias. 1793 7

Polymorphisms of the genes 5'-10'-methylenetetrahydrofolate reductase (MTHFR, 677CT and 1298AC), methionine synthase (MTR, 2756AC) and methionine synthase reductase (MTRR, 66AC) provoke variations in enzyme activity, which can lead to alterations in the metabolism of folates and in the synthesis of S-adenosyl-methionine (SAM), the most active methyl donor in the body. This could play an important role in carcinogenesis through the degree of DNA methylation and of nucleotide synthesis. In the present study, four polymorphisms were studied, two of the methylenetetrahydrofolate reductase gene, and the other two of methionine synthase and methionine synthase reductase. Our aim was to study the association between prostate carcinoma susceptibility and these polymorphisms. A hospital-based case-control study was conducted in 182 patients (mean age: 70.7+/-7.29 years) with histologically confirmed prostate carcinoma and in 205 control subjects (mean age: 70.3+/-7.82 years) diagnosed with benign prostatic hyperplasia (BPH). Genomic DNA was extracted from peripheral leukocytes. Comparison of the MTHFR CT and TT genotypes in patients and the controls revealed significant differences (0.57 vs 0.38) (OR: 2.19, 95% CI: 1.46-3.30) and (0.06 vs 0.15) (OR: 0.36, 95% CI: 0.17-0.73), respectively. No statistically significant differences were found between patients and controls with respect to the MTHFR 1298AC, the MTR 2756AC and the MTRR 66AC polymorphisms. However, among the patients, the MTR 2756 allele C was related to a high Gleason score. We conclude that the polymorphism MTHFR C677T is clearly related to prostatic carcinogenesis, on the contrary to the other polymorphisms studied, although the MTR 2756 allele C acts as a factor of tumor aggressiveness, this being found in tumors with high carcinogenic potential.
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PMID:Association between polymorphisms of folate-metabolizing enzymes and risk of prostate cancer. 1796 24


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