Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042373 (vascular disease)
 17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Moderately elevated plasma homocysteine levels have been established as independent risk factors in vascular disease, including ischemic stroke. Recently, a common mutation (C677T) in the 5,10-methylenetetrahydrofolate reductase (MTHFR) gene reducing the activity of MTHFR and increasing homocysteine levels in plasma was reported. The C677T MTHFR mutation may be a risk factor for ischemic stroke, but the results of previous studies have been conflicting. One possible explanation is that the association with the MTHFR genotype may be different according to gender. To investigate the association for ischemic stroke, we conducted a case-control study of 77 hospital cases (49 men and 28 women) with ischemic stroke and 229 (120 men and 109 women) control subjects in Japanese. The prevalence of conventional vascular risk factors and MTHFR genotypes were determined in case and controls. After adjustment by multiple analysis in all there was no statistical significance in MTHFR genotypes. The conventional vascular risk factors such as diabetes mellitus (adjusted odds ratio [OR], 17.21), hypertension (adjusted OR, 4.67), smoking habit (adjusted OR, 4.70), and hyperlipidemia (adjusted OR, 2.73) were identified independently associated with ischemic stroke. With a separate sex analysis it was identified that the relationship of the MTHFR T/T gneotype was statisticaly significant in women (adjusted OR, 9.49; 95% CI, 1.75-51.47, P=0.0091). The relevance of the MTHFR T/T mutation appears to be restricted to women, suggesting a role of female hormones in the resistance to elevated homocysteine levels due to the MTHFR T/T mutation.
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PMID:Methylenetetrahydrofolate reductase gene polymorphism and ischemic stroke: sex difference in Japanese. 1187 Mar 35

Hyperhomocysteinemia, a possible risk factor for vascular disease can result from folate deficiency due to anticonvulsant therapy. A reaction catalyzed by 5,10-methylenetetrahydrofolate reductase (MTHFR) supplies 5-methyltetrahydrofolate, needed to remethylate homocysteine to methionine. MTHFR gene mutation (C677T) also can lead to hyperhomocysteinemia. We examined interaction between anticonvulsant therapy, C677T homozygosity, serum folate concentration, and plasma total homocysteine (tHcy) concentration in 81 epileptic patients. Patients receiving monotherapy showed no difference in occurrence of hyperhomocysteinemia (tHcy>90th percentile for controls) between homozygotes for C677T and heterozygotes or patients with no mutant MTHFR. No monotherapy patient was folate deficient (<3 ng/ml). Among patients receiving multidrug therapy, hyperhomocysteinemia in homozygotes for C677T occured significantly more often than in heterozygotes or patients with no mutant enzyme (88.9 vs. 21.1%). The same was true for folate deficiency (44.4 vs. 0%). The C677T mutation is closely related to hyperhomocysteinemia and folate deficiency in epileptic patients taking multiple anticonvulsants.
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PMID:The C677T mutation in the methylenetetrahydrofolate reductase gene contributes to hyperhomocysteinemia in patients taking anticonvulsants. 1201 64

The common polymorphic transition 677C>T in the 5,10-methylenetetrahydrofolate reductase (MTHFR) gene causes a thermolabile enzyme variant. This variant is associated with moderate hyperhomocysteinemia, a risk factor for vascular disease and thrombophilia. Up to now, it remained unclear if the thermolabile MTHFR variant either directly predisposes to vascular disease, or if 677T is only a genetic marker for another causative genetic alteration in cis. Aim of this study was to characterize the genetic background of 677T-alleles by haplotype analysis. We analyzed 25 individuals of German descent homozygous for 677T: nine young patients, who had suffered from thromboembolic events, and 16 healthy controls. The results of this study demonstrate that the 677T alleles are associated with a common haplotype most likely due to a founder effect and that the 677T haplotype was the same in the healthy and the thrombophilic German subjects.
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PMID:A common haplotype for the 677T thermolabile variant of the 5,10-methylenetetrahydrofolate reductase gene in thrombophilic patients and controls. 1244 81

The 5,10-methylenetetrahydrofolate reductase ( MTHFR ) gene 677C --> T polymorphism causes an A222V amino acid change which affects MTHFR enzyme activity and can increase homocysteine, a vascular disease risk factor. This polymorphism was examined for association with stroke. In a case-control study of 241 ischemic stroke patients and 304 controls in Hong Kong, the V allele increased in stroke [28% vs. 20%, odds ratio (OR) 1.5, p=0.003]. A lack of significance for the increase in the VV genotype (7.5% vs. 4.6%, OR 1.7, p = 0.16) may be due to its rarity in this region. V -allele carriers had more severe strokes (according to the NIH stroke scale). The association of the V allele with stroke occurred mostly in women or older subjects and was due to decreasing V allele frequency with age, as seen in other studies. This V frequency decline with age might be due to a loss of V -carrying controls from a higher risk of cancer, vascular disease, bone fracture, and kidney failure when folate is sparse. Examination of previous studies revealed that the association of VV genotype with stroke appeared stronger in Japan than elsewhere, possibly due to dietary differences. Perhaps folate supplementation for stroke prevention would particularly benefit VV individuals in such high-risk regions.
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PMID:Methylenetetrahydrofolate reductase gene A222V polymorphism and risk of ischemic stroke. 1557 98

Low folate status has been associated with cognitive decline. We investigated the association of folate status and the 5,10-methylenetetrahydrofolate reductase (MTHFR) 677C-->T polymorphism with performance on a battery of neuropsychological tests. Furthermore, we investigated whether the association of folate with cognitive performance was mediated by plasma homocysteine or risk of vascular disease. We used cross-sectional data from 818 individuals aged 50-70 years old. Low concentrations of erythrocyte folate but not serum folate were associated with poor performance on complex speed and memory tasks, independent of educational level and conventional risk factors of vascular disease. These associations were not mediated by homocysteine concentrations or carotid intima-media thickness. Subjects with the MTHFR 677TT genotype tended to perform better on cognitive tasks than CC/CT subjects, although this was significant for sensorimotor speed only (differences in Z-scores between MTHFR 677TT homozygotes and CC homozygotes -0.15, 95% CI: -0.30 to 0.00). Low concentrations of erythrocyte folate are associated with decreased cognitive performance, possibly through a homocysteine-independent mechanism such as DNA infidelity and mitochondrial decay.
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PMID:Folate and the methylenetetrahydrofolate reductase 677C-->T mutation correlate with cognitive performance. 1639 16

Vascular disease and its risk factors have been associated with the age-related hearing loss. We examined the association of elevated plasma homocysteine and its determinants with hearing levels. Pure-tone air conduction thresholds in 728 individuals with sensorineural hearing loss were not associated with homocysteine, erythrocyte folate and Vitamin B6. Low concentrations of serum folate and Vitamin B12 were associated with better hearing. When folate status was below the median, 5,10-methylenetetrahydrofolate reductase (MTHFR) 677TT homozygotes had similar hearing levels to subjects with a C allele. However, when folate status was above the median, MTHFR 677TT homozygotes had on an average 5 dB (p = 0.037) and 2.6 dB (p = 0.021) lower PTA-high and PTA-low hearing thresholds, respectively, than the subjects with a 677C allele. The relationship between serum folate and hearing thresholds appeared to be dependent on MTHFR 677 genotype (CC, r = 0.13, p = 0.034; TT, r = -0.10, p = 0.291). This supports the hypothesis that a greater one-carbon moiety commitment to de novo synthesis of nucleotides and an increase in formyl-folate derivatives relative to methyl-folate derivatives is protective for hearing.
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PMID:Association of folate with hearing is dependent on the 5,10-methylenetetrahdyrofolate reductase 677C-->T mutation. 1646 57

Homocysteine is a thiol aminoacid synthesized during the metabolism of methionine. Increased plasma levels of homocysteine can be the result of mutations in the enzymes responsible for homocysteine metabolism, particularly cystathionine-beta synthase (CBS) and 5,10-methylenetetrahydrofolate reductase (MTHFR). Additionally, nutritional deficiencies in B vitamin cofactors required for homocysteine metabolism, including folic acid, vitamin B6 (pyridoxal phosphate), and/or vitamin B12 (methylcobalamin), can induce hyperhomocysteinemia. Over the last decade, following in vitro and in vivo observations of a homocysteine-associated vascular pathology, convincing epidemiological evidence has been gathered on the relation between moderate elevation of plasma homocysteine and vascular disease, including cerebral ischemia. However, causality has yet to be established. The association between homocysteine and ischemic stroke might be a spurious epidemiological finding because of confounding or it might reflect reverse causality. If this is the case, elevated levels of plasma homocysteine should be interpreted as an epiphenomenon secondary to the vascular disease itself. Thus, whether lowering homocysteine concentration prevents cerebral ischemia remains to be determined. The only method to answer the question of the causal relation between homocysteine and ischemic stroke is by intervention trials in which patients at high vascular risk, such as those who have had a recent cerebral ischemic event are randomly allocated to placebo or homocysteine-lowering multivitamin therapy, and followed prospectively. Some of these randomized controlled trials are currently ongoing. Their results should hopefully resolve the issue in the next future.
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PMID:Homocysteine and cerebral ischemia: pathogenic and therapeutical implications. 1730 30

The objectives were firstly to assess the evidence that homocysteine is a significant and independent risk factor for vascular disease with special reference to cardiovascular disease, and secondly to evaluate the evidence that a food staple fortified with folic acid will reduce this problem on a population basis. The structure of plasma homocysteine (tHcy) is described. Homocysteine, a highly reactive compound, is synthesized from the amino acid, methionine, and is metabolized by two pathways, the catabolic transsulphuration route via cystathionine beta-synthase (EC 4.2.1.22) and the remethylation path using 5-methyltetrahy-drofolate polyglutamate, the product of 5,10-methylenetetrahydrofolate reductase (MTHFR; EC 1.1.1.171), via the cobalamin dependent enzyme, methionine synthase (MS; EC 2.1.1.13).The mechanisms whereby hyper-tHcy is produced include both increased rates of synthesis and decreased metabolism. The latter may occur owing to nutritional deficiency of the vitamin cofactors which are necessary for the normal function of the metabolic enzymes. In particular, folate is required for methylene reductase, pyridoxal phosphate for cystathionine synthase and cobalamin for methionine synthase. When these vitamins are deficient hyper-tHcy is induced and this occurs especially in the elderly. Alternatively, a variant form of methylene reductase has recently been described which occurs in nearly 10% of the normal population. This variant is associated with hyper-tHcy, especially in situations associated with a low folate nutritional status. Meta-analysis of both retrospective case-control studies, nested prospective case-control surveys and a secondary trial of mortality in postmyocardial infarct patients have shown that the association of hyper-tHcy with vascular disease is beyond doubt. This has been further supported by direct assessments of the degree of vascular disease in the carotid brachial and aortic arteries in relation to tHcy levels. Furthermore, treatment with a cocktail of the vitamin cofactors has produced lowering of tHcy levels and regression of the vascular disease in the carotid arteries of affected individuals. Suggested pathogenic mechanisms in vascular disease induced by hyper-tHcy include vascular endothelial cell dysfunction, smooth muscle proliferation and derangements of normal intravascular regulation mechanisms. A variety of clinical conditions are known to be associated with a high incidence of thromboembolic complications. Some of these are associated with hyper-tHcy. Low physiological doses of folic acid, as well as pharmocological doses, lower tHcy. However, because of the poor bioavailability of food folate (50%) and the considerable chemical instability of the naturally occurring reduced forms of folate, in most people it would require unacceptably high consumption of green vegetables to accomplish the necessary increase in intracellular folate and reduction in tHcy. Accordingly, folic acid, the nonreduced synthetic form of the vitamin, which is 100% bioavailable and chemically extremely stable, should be added to a food staple such as flour to ensure maximum protection for most of the population.
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PMID:Homocysteine as a risk factor for cardiovascular and related disease: nutritional implications. 1909 52


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