Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.2.1.22 (cystathionine beta-synthase)
 965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A clinically benign form of persistent hypermethioninaemia with probable dominant inheritance was demonstrated in three generations of one family. Plasma methionine concentrations were between 87 and 475 mumol/L (normal mean 26 mumol/L; range 10-40 mumol/L); urinary methionine and homocystine concentrations were normal. Plasma homocystine, cystathionine, cystine and tyrosine were virtually normal. The concentrations in serum and urine of metabolites formed by the methionine transamination pathway were normal or moderately elevated. Methionine loading of two affected family members revealed a diminished ability to catabolize methionine, but the activities of methionine adenosyltransferase and cystathionine beta-synthase were not decreased in fibroblasts from four affected family members. Fibroblast methylenetetrahydrofolate reductase activity and its inhibition by S-adenosylmethionine were also normal, indicating normal regulation of N5-methyltetrahydrofolate-dependent homocysteine remethylation. Serum folate concentrations were not increased. The findings in this family differ from those previously described for known defects of methionine degradation. Since the hepatic and fibroblast isoenzymes of methionine adenosyltransferase differ in their genetic control, this family's biochemical findings appear consistent with a mutation in the structural gene for the hepatic methionine adenosyltransferase isoenzyme.
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PMID:Persistent hypermethioninaemia with dominant inheritance. 152 87

The subcellular distributions of the enzymes associated with the methylation and cystathionine-synthesizing portion of the sulfur amino acid metabolic pathway have been determined in the occipital lobe of the rhesus monkey. 5-Methyltetrahydrofolate-homocysteine methyltransferase and 5, 10-methylenetetrahydrofolate reductase activities are located mainly in the soluble compartment. Serine hydroxymethyltransferase activity is located primarily in mitochondria. Cystathionine beta-synthase is a soluble enzyme with a significant component occluded within the nerve endings. Glycine, serine, and cystathionine increase per gram of tissue during development. Glycine and serine are approximately 30% occluded within the nerve endings. These data are consistent with a localization of sulfur amino acid metabolism that supports a differential compartmentation of potential neurotransmitter function and methylation function in the primate.
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PMID:Sulfur amino acid metabolism in the developing rhesus monkey brain: subcellular studies of the methylation cycle and cystathionine beta-synthase. 720 68

Mild hyperhomocysteinemia is an established risk factor for cardiovascular disease. Genetic aberrations in the cystathionine beta-synthase (CBS) and methylenetetrahydrofolate reductase (MTHFR) genes may account for reduced enzyme activities and elevated plasma homocysteine levels. In 15 unrelated Dutch patients with homozygous CBS deficiency, we observed the 833T-->C (I278T) mutation in 50% of the alleles. Very recently, we identified a common mutation (677C-->T; A-->V) in the MTHFR gene, which, in homozygous state, is responsible for the thermolabile phenotype and which is associated with decreased specific MTHRF activity and elevated homocysteine levels. We screened 60 cardiovascular patients and 111 controls for these two mutations, to determine whether these mutations are risk factors for premature cardiovascular disease. Heterozygosity for the 833T-->C mutation in the CBS gene was observed in one individual of the control group but was absent in patients with premature cardiovascular disease. Homozygosity for the 677C-->T mutation in the MTHFR gene was found in (15%) of 60 cardiovascular patients and in only 6 (approximately 5%) of 111 control individuals (odds ratio 3.1 [95% confidence interval 1.0-9.2]). Because of both the high prevalence of the 833T-->C mutation among homozygotes for CBS deficiency and its absence in 60 cardiovascular patients, we may conclude that heterozygosity for CBS deficiency does not appear to be involved in premature cardiovascular disease. However, a frequent homozygous mutation in the MTHFR gene is associated with a threefold increase in risk for premature cardiovascular disease.
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PMID:Molecular genetic analysis in mild hyperhomocysteinemia: a common mutation in the methylenetetrahydrofolate reductase gene is a genetic risk factor for cardiovascular disease. 855 53

The link between vascular disease and elevated homocysteine levels has been recognized for more than 30 years, and association with moderately elevated levels has been suspected for 20 years. Homocysteine is a sulfhydryl-containing amino acid that is formed by the demethylation of methionine. It is normally catalysed to cystathionine by cystathionine beta-synthase a pyridoxal phosphate-dependent enzyme. Homocysteine is also remethylated to methionine by methionine synthase, a vitamin B12 dependent enzyme and by methylenetetrahydrofolate reductase. Environmental factors such as folate, or vitamin B12, or vitamin B6 deficiencies and genetic defects such as cystathionine beta-synthase or abnormality of methylene-tetrahydrofolate reductase or some vitamin B12 metabolism defects may contribute to increasing plasma homocysteine levels. Normal fasting levels of homocysteine lie within the range 6-16 mumol/l. Apart from differences in assay methods, age, sex and nutritional status may affect the plasma levels. Though it is now well known that homocysteine is an independent risk factor for premature vascular disease, the pathogenesis of homocysteine-induced vascular damage is, for the most part, unknown. It may be multifactorial, including direct homocysteine damage to the endothelium, an enhanced low-density lipoprotein peroxidation, an increase of platelet thromboxane A2, or a decrease of protein C activation.
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PMID:[Deregulation of homocysteine metabolism and consequences for the vascular system]. 923 30

Severe hyperhomocysteinemia in its most frequent form, is caused by a homozygous enzymatic deficiency of cystathionine beta-synthase (CBS). A major complication in CBS deficiency is deep venous thrombosis or pulmonary embolism. A recent report by Mandel et al (N Engl J Med 334:763, 1996) postulated factor V Leiden (FVL) to be an absolute prerequisite for the development of thromboembolism in patients with severe hyperhomocysteinemia. We studied 24 patients with homocystinuria caused by homozygous CBS deficiency from 18 unrelated kindreds for FVL and for the 677C-->T mutation in the methylenetetrahydrofolate reductase (MTHFR) gene and investigated their possible interaction in the risk of venous thrombosis. Thrombotic complications were diagnosed in six patients, of whom only one was a carrier of FVL. On the contrary, thermolabile MTHFR caused by the 677C-->T mutation, was frequently observed among homocystinuria patients, especially among those with thromboembolic complications: three of six homocystinuria patients who had suffered from a thromboembolic event had thermolabile MTHFR. These data indicate that FVL is not an absolute prerequisite and probably not even a major determinant of venous thrombosis in homocystinuria, but, interestingly, thermolabile MTHFR may constitute a significant risk factor for thromboembolic complications in this inborn error of methionine metabolism.
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PMID:Homozygous cystathionine beta-synthase deficiency, combined with factor V Leiden or thermolabile methylenetetrahydrofolate reductase in the risk of venous thrombosis. 949 Jun 85

Moderate hyperhomocysteinaemia (MHH) is a risk factor for arteriosclerosis and thrombosis. About 10%-20% of the normal population have homocysteine levels contributing to an increased risk for arterial and venous disease. Main regulating enzymes of homocysteine metabolism are cystathionine beta-synthase (CBS) and methylenetetrahydrofolate reductase (MTHFR). Heterozygosity for CBS deficiency is most likely not an important cause for MHH in vascular disease. A recently discovered cause of MHH is reduced MTHFR activity due to a homozygous C677T mutation in the coding region of MTHFR. This mutation has been related to an increased risk for cardiovascular disease, although a number of studies are not confirmative. The elevated homocysteine levels due to this mutation can be normalized by administration of vitamins involved in homocysteine metabolism, in particular folate.
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PMID:Mutated 5,10-methylenetetrahydrofolate reductase and moderate hyperhomocysteinaemia. 958 41

Thromboembolic disease results from an hypercoagulable state and multifactorial causes may lead to hypercoagulability. Thrombogenic risk factors can be acquired and/or inherited. For each thrombophilic patient, the main clinical features retained are: the patient age, the familial history, the recurrence of thromboembolic events, an unusual site of thrombosis. Anti-phospholipid antibodies, which are considered as acquired thrombogenic risk factors, can be detected with coagulation tests and/or Elisa methods. The association of antiphospholipid antibodies with thrombosis is defined as the anti-phospholipid syndrome. Last decades, genetic risk factors were identified. First of all, antithrombin, protein C and protein S deficiencies were described. These deficiencies are involved in about 10% of patients who develop thrombosis before the age of 50. In 1993, a new genetic risk factor was discovered: activated protein C resistance which is due to the Q506 mutation in factor V. This defect represents the most prevalent abnormality of inherited thrombophilia, affecting 20 to 40% of thrombophilic patients. Interestingly, hyperhomocysteinemia, known as potentially predisposing to arterial disease, was also recognized as a risk factor for venous occlusive disease. Several genes encoding homocystein metabolism enzymes, such as cystathionine beta-synthase or methylenetetrahydrofolate reductase are concerned. Establishment of a causal association between the presence of a biological abnormality and the occurrence of thrombosis may lead to an adapted prophylaxis whatever the risk situation.
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PMID:[Evaluation of hemostasis in venous thromboembolism pathology]. 975 22

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

Mild hyperhomocysteinemia is associated to mutations either in cystathionine beta-synthase (CBS) or in 5,10-methylenetetrahydrofolate reductase (MTHFR) genes. In 1995, Sebastio et al. characterized a 68 bp insertion in cis with the most common CBS mutation (T833C) detected in homocystinuric patients. Recently, this double mutation has been detected in Italian and North-American controls. Compared to a group of patients affected by coronary artery disease, North-American controls showed not statistically significant difference. Moreover, Italian controls displayed a microheterogeneity in the mutant allele frequency distribution depending on their geographical origin (North or South of Italy). Aim of our study was to evaluate the prevalence of the double in cis mutation in different populations. We studied 377 healthy subjects belonging to various human groups. Genomic DNA, extracted from peripheral blood samples, was amplified using specific primers; PCR fragments were digested with Bsr I restriction enzyme to detect the double mutation. Our data show a significant heterogeneity among the populations studied, therefore this mutation turned out to be a reliable anthropogenetic marker. The distribution of the double mutation will contribute, with other DNA polymorphisms, to evaluate the genetic admixture of mixed populations such as Afro-Americans.
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PMID:World distribution of the T833C/844INS68 CBS in cis double mutation: a reliable anthropological marker. 1019 Mar 22

We investigated the effects of temperature and pH on single strand-conformation polymorphism (SSCP) analyzed by capillary electrophoresis (CE) using short-chain linear polyacrylamide as the sieving medium. Nine different mutations (in factor V, cystathionine beta-synthase, and methylenetetrahydrofolate reductase genes), including both transitions and transversions, were investigated. We confirmed that low temperature in general increased the number of detectable single-strand conformations and thereby the sensitivity of the analysis. The pH effects of the separation matrix on the migration pattern, and thus the assay sensitivity, varied markedly between the different DNA fragments. Seven of nine single point mutations were detected at the ordinary pH of 8.3, whereas the CBS T833C mutation was discriminated at the extreme pH values of 9.0 and 6.4, and the CBS G797A mutation could not be detected at any pH value within the range 6.4--9.0. These data emphasize the importance of the pH of the separation matrix in detecting certain mutations by SSCP.
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PMID:Temperature and pH effects on single-strand conformation polymorphism analysis by capillary electrophoresis. 1040 75


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