EC:4.2.1.22 - FACTA Search

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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)

Homolanthionine, a higher homologue of cystathionine, was found to accumulate in the mutants of Aspergillus nidulan impaired in the synthesis of methionine from homocysteine. The additional introduction of mutation resulting in a block at cystathionine gamma-synthase but not at cystathionine beta-synthase abolishes accumulation of both homolanthionine and cystathionine. This suggests a possible participation of cystathionine gamma-synthase in homolanthionine synthesis.
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PMID:Homolanthionine in fungi: accumulation in the methionine-requiring mutants of Aspergillus nidulans. 110 92

Three circumstances prompted us to reexamine the relationship between abnormal cystathionine accumulation and possible homocystinuria resulting from this condition: (a) discovery of an infant girl with apparently alternating massive cystathioninuria and homocystinuria; (b) the presence of homocystinuria in some, but not all, previously reported cases of cystathioninuria probably due to gamma-cystathionine deficiency; and (c) the recent demonstration that mammalian cystathionine beta-synthase can cleave cystathionine to homocysteine. The following conclusions were reached: (a) Homocystine may arise as a result of bacterial contamination of a urine sample initially containing cystathionine, but not homocystine. (b) After a methionine load, a cystathioninuric patient may excrete readily detected amounts of homocystine. (c) However, homocystinuria is not a necessary concomitant of even massive cystathioninuria. These findings and some of their implications are briefly discussed.
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PMID:Cystathioninuria and homocystinuria. 112 32

Deficiency of cystathionine beta-synthase (CBS) causes the most common form of inherited homocystinuria. We developed a simple CBS expression system in E. coli to screen for pathogenic mutations in affected individuals. Portions of patient cDNAs were amplified by PCR and used to replace the corresponding segments of normal human CBS cDNA in the bacterial expression plasmid pHCS3. Hybrid CBS was expressed in E. coli and the segments of patient's cDNA which extinguished CBS activity were sequenced to identify the mutation. The first study of a pyridoxine-responsive patient using this screen revealed that of the clones which contained either the middle or the 3'-portion of his cDNA, about half were devoid of catalytic activity. Subsequent sequencing of the affected segments confirmed a compound heterozygosity for a maternal T833-->C transition (I278T) and for a paternal A-->C transversion in the intron 11 splice acceptor. The latter mutation leads to an in-frame deletion of exon 12 (nt 1224-1358, amino acids W408 to G453). This bacterial expression system proved to be a rapid screening method for localizing pathogenic mutations in CBS, allowing us to sequence the affected portions of mutant cDNA within 7-10 days of harvesting cultured fibroblasts.
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PMID:Screening for mutations by expressing patient cDNA segments in E. coli: homocystinuria due to cystathionine beta-synthase deficiency. 130 Nov 98

O-Acetylserine (thiol) lyase, the last enzyme in the cysteine biosynthetic pathway, was purified to homogeneity from spinach leaf chloroplasts. The enzyme has a molecular mass of 68,000 and consists of two identical subunits of Mr 35,000. The absorption spectrum obtained at pH 7.5 exhibited a peak at 407 nm due to pyridoxal phosphate, and addition of O-acetylserine induced a considerable modification of the spectrum. The pyridoxal phosphate content was found to be 1.1 per subunit of 35,000, and the chromophore was displaced from the enzyme by O-acetylserine, leading to a progressive inactivation of the holoenzyme. Upon gel filtration chromatography on Superdex 200, part of the chloroplastic O-acetylserine (thiol) lyase eluted in association with serine acetyltransferase at a position corresponding to a molecular mass of 310,000 (such a complex called cysteine synthase has been characterized in bacteria). The activity of O-acetylserine (thiol) lyase was optimum between pH 7.5 and 8.5. The apparent Km for O-acetylserine was 1.3 mM and for sulfide was 0.25 mM. The calculated activation energy was 12.6 kcal/mol at 10 mM O-acetylserine. The overall amino-acid composition of spinach chloroplast O-acetylserine (thiol) lyase was different than that determined for the same enzyme (cytosolic?) obtained from a crude extract of spinach leaves. A polyclonal antibody prepared against the chloroplastic O-acetylserine (thiol) lyase exhibited a very low cross-reactivity with a preparation of mitochondrial matrix and cytosolic proteins suggesting that the chloroplastic isoform was distinct from the mitochondrial and cytosolic counterparts.
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PMID:Purification and characterization of O-acetylserine (thiol) lyase from spinach chloroplasts. 137 15

Cysteine synthase (O-acetylserine sulfhydrylase) has been purified to homogeneity from bell pepper (Capsicum annuum) fruit chromoplasts. This enzyme consists of two subunits of 35 kDa. Immunocytochemical localization experiments confirmed the plastid location of this enzyme. A full-length cDNA was isolated from an expression library of C. annuum. The deduced peptide sequence revealed high similarity between the C. annuum cysteine synthase and its bacterial counterparts. In vitro transcription and translation of the cDNA and subsequent import experiments demonstrated that the encoded cysteine synthase is located in the plastids. The steady-state level of the cysteine synthase mRNA is almost constant in dark-grown hypocotyls, leaves, and fruits. However, a slight increase in this mRNA level was detected during fruit development (when the 25 S rRNA was taken as an internal standard). Similarly, the cysteine synthase activity in plastids was found to increase during fruit development and reaches the highest levels in the chromoplasts of red fruits. To address the physiological role of this phenomenon, we have shown that cysteine is engaged in the active metabolism of glutathione. Thus, in connection with the previous demonstration of an active tocopherol metabolism, it is concluded that differentiation of chloroplast to chromoplast in C. annuum involves an active synthesis of potential antioxidants or redox modulators.
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PMID:Cysteine synthase from Capsicum annuum chromoplasts. Characterization and cDNA cloning of an up-regulated enzyme during fruit development. 138 58

The gene for rat cystathionine beta-synthase consists of 17 exons. Its transcripts are alternatively spliced, forming four distinct mRNA species. Type III consists of exons 1 through 12, 14, 15, and 17; type I also contains exon 16. The open reading frame of type IV spans exons 1-->13; type II, 3-->13. We cloned the corresponding cDNAs into appropriate expression vectors and inserted the constructs into Escherichia coli (I, III, and IV) and Chinese hamster (CH) cells (I through IV); all sequences were transcribed and translated. Catalytic activity was observed only for types I and III in lysates of transfected CH cells and transformed E. coli. The catalytic and kinetic properties of I and III were identical despite their structural difference (exon 16). Both isoforms exhibited 6 mM Km constants for homocysteine which were reduced approximately eightfold by AdoMet; this elucidates the mechanism by which AdoMet regulates synthase activity. The four isoforms were differentially degraded by transfected cultured cells. Type III (t1/2 = 18 h) was degraded at 1/3 the rate of type I (t1/2 = 6 h); thus the 14 amino acid residues encoded by exon 16 appear to enhance degradation of CBS. The half-lives of both types II and IV were markedly shorter (ca. 1 h). Western blots comparing rat liver to lysates from transfected CH cells revealed that hepatocytes express both isoforms. Type III was predominant, as predicted by its longer half-life and more abundant mRNA. PCR analysis of cDNA from various tissues revealed that type III mRNA was preferred in liver, kidney, and heart; equal amounts of I and III were found in brain.
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PMID:Rat cystathionine beta-synthase: expression of four alternatively spliced isoforms in transfected cultured cells. 138 33

In order to clarify whether cystathionine beta-synthase (CBS) could differentiate groups of patients with various vascular diagnosis, CBS was studied in cultured human skin fibroblasts from 99 human subjects diagnosed as homozygotes or heterozygotes for CBS deficiency or suffering from atherosclerotic vascular disease or Down's syndrome (prone to less atherosclerosis). In addition, embryonic human skin fibroblasts and controls were analysed for CBS. We found significant group differences but the overlap in the hetero- and homozygotes for CBS deficiency was too extensive to allow any individual diagnosis based on cell culture studies. CBS activity was significantly lower in the atherosclerotic patients as compared to control subjects. The difference was mostly due to much higher CBS activity in the younger controls. Age dependency was markedly emphasized by very high values from embryonic cells. A strong negative correlation was noted for age and CBS activity in control subjects but not in the atherosclerotic patients. The results are important for the discussion of homocysteine in atherosclerosis and point to the importance of donor age on CBS activity in cultured cells. In addition, diagnosis of hetero-homozygosity for CBS activity is not possible on an individual basis by this method. Further studies in cell culture systems are needed to investigate if young patients (less than 45 years old) with atherosclerotic disease could be identified by low CBS activity in fibroblast cultures as indicated by this study.
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PMID:Age dependency of cystathionine beta-synthase activity in human fibroblasts in homocyst(e)inemia and atherosclerotic vascular disease. 138 57

Several inherited metabolic disorders of the transsulfuration pathway are discussed. They are hypermethioninemia, homocystinuria, cystathioninuria, beta-mercaptolactate cysteine disulfideuria and sulfite oxidase deficiency (SOD). Primary coverage is given to homocystinuria and SOD. In the case of homocystinuria, metabolic defects include cystathionine beta-synthase deficiency, methylenetetrahydroforate reductase deficiency, and mutations in cobalamin metabolism. Their main clinical pictures, metabolic abnormalities, and treatment are also described. SOD appears in two cases as an isolated enzyme defect and a combined deficiency of sulfite oxidase and xanthine dehydrogenase that share a common molybdenum cofactor. The clinical, biochemical and neurological features of the two disorders are reviewed.
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PMID:[Inherited metabolic disorders of the transsulfuration pathway]. 140 82

Hyperhomocysteinemia has been suggested as a potent new risk factor for premature cardiovascular disease. Homocsyteine can induce endothelial cell injury but the mechanism is not understood. The purpose of this study was to evaluate the role of free radicals as potential causes of endothelial cell injury in a case-control study of obligate heterozygotes for cystathionine beta-synthase deficiency. Firstly, free radical production as measured by neutrophil chemiluminescence in obligate heterozygotes for cystathionine beta-synthase deficiency was compared with age- and sex-matched normal subjects. Secondly, the response of the cellular antioxidant system was examined by measuring the enzymes superoxide dismutase and glutathione peroxidase, their cofactors (selenium, copper), vitamin E and vitamin A in heterozygotes and normal subjects. Analyses of neutrophil chemiluminescence, vitamin A and E, glutathione peroxidase, selenium and copper showed no difference between heterozygotes and controls. While superoxide dismutase activity was higher in heterozygotes than normal subjects, the difference did not reach statistical significance and the hypothesis of excess free radical production as a mechanism of injury was not confirmed. However, further examination of superoxide dismutase activity in a larger number of subjects would be of interest.
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PMID:The role of free radicals as mediators of endothelial cell injury in hyperhomocysteinemia. 142 78

Elevated plasma homocysteine enhances the risk of thrombosis and premature arteriosclerosis. We have assessed the activity of the 3 prime enzymes of homocysteine metabolism in cultured human venous endothelial cells, in a study of their possible protective roles. In cells from 4 individuals, cultured in Dulbecco's modified Eagle medium, the mean activity +/- S.D. of cystathionine beta-synthase (nmol of product/h per mg of cell protein, at 37 degrees C) was 3.58 +/- 3.11 at pH 8.6. The assay used was our newly developed amino acid analyser-based procedure. The activity of 5-methyltetrahydrofolate:homocysteine methyltransferase at pH 7.4 was 4.12 +/- 1.25 and betaine:homocysteine methyltransferase (BHMT) was undetectable (< 1.4 nmol/h per mg protein). Cells were also cultured in a medium aimed at stimulating methionine biosynthesis, containing methionine-deficient Dulbecco's modified Eagle medium to which L-homocystine (100 mumol/l) and methylcobalamin (1 mumol/l) had been added. In these cells 5-methyltetrahydrofolate:homocysteine methyltransferase activity increased to 7.95 +/- 1.45, P < 0.001, there was a non-significant decrease in cystathionine beta-synthase activity to 2.16 +/- 1.52 and BHMT activity was still undetectable. These cells were more resistant to in vitro homocysteine-induced detachment than were cells from the same line cultured in Dulbecco's modified Eagle medium alone. Our findings establish that human endothelial cells express 2 of the 3 primary enzymes of homocysteine catabolism. They suggest that persons who are deficient in cystathionine beta-synthase or 5-methyltetrahydrofolate:homocysteine methyltransferase activity may not only develop homocysteinemia, but also have vascular endothelium which is more susceptible to damage by homocysteine than persons with normal enzyme levels.
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PMID:Homocysteine catabolism: levels of 3 enzymes in cultured human vascular endothelium and their relevance to vascular disease. 144 98

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