EC:4.4.1.1 - FACTA Search

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Query: EC:4.4.1.1 (cystathionine gamma-lyase)
528 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A mouse monoclonal antibody has been produced which recognizes human liver gamma-cystathionase, Radioiodination of the monoclonal antibody facilitated its use in combination with non-specific precipitating rabbit antisera in classical immunodiffusion assays. The technique may have broad applicability in the detection and quantitation of rare antigens which are difficult to purify but easily recognizable in immunodiffusion assays. It may also be used for the initial detection of monoclonal antibodies to unique antigens of interest.
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PMID:Use of monoclonal antibody to increase sensitivity and specificity in quantitative immunodiffusion assays. 679 77

Suspensions of rat spleen lymphocyte, murine L1210 lymphoma and HeLa cells were partially depleted of glutathione (GSH) with diethyl maleate and allowed to utilize either [35S]methionine, [35S]cystine or [35S]-cysteine for GSH synthesis. Lymphocytes preferentially utilized cysteine, compared to cystine, at a ratio of about 30 to 1, which was not related to differences in the extent of amino acid uptake. Only HeLa cells displayed a slight utilization of methionine via the cystathionine pathway for cysteine and GSH biosynthesis. HeLa and L1210 cells readily utilized either cystine or cysteine for GSH synthesis. The three cell types accumulated detectable levels of intracellular cysteine glutathione mixed disulfide when incubated in a medium containing a high concentration of cystine. Various enzyme activities were measured including gamma-glutamyl transpeptidase, GSH S-transferase and gamma-cystathionase. These results support the concept of a dynamic interorgan relationship of GSH to plasma cyst(e)ine that may have importance for growth of various cell types in vivo.
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PMID:Unique characteristics of rat spleen lymphocyte, L1210 lymphoma and HeLa cells in glutathione biosynthesis from sulfur-containing amino acids. 706 95

The development of hepatic cystathionase (EC 4.4.1.1) activity is dependent both upon the gestational age of the infant and the postnatal age. Full-term infants are born with greater hepatic cystathionase activity than pre-term infants, and the activity increases rapidly after birth reaching mature levels at about 3 months of age. Prematurely born infants have lower hepatic cystathionase activity at birth and like the full-term, the activity increases after birth. Cystathionase activity is not isolated to the liver. In both premature and full-term infants, it is present in the kidneys, and adrenals, but of little significance in the pancreas. These in vitro measurements of cystathionase activity indicate that the premature infant is potentially capable of endogenous cysteine production if provided with adequate methionine.
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PMID:The development of cystathionase activity during the first year of life. 707 Aug 78

Inactivation of gamma-cystathionase by beta, beta, beta-trifluoroalanine, a suicide inactivator of the enzyme, results in covalent labeling of an amino group of the protein [Silverman, R. B., & Abeles, R. H. (1977) Biochemistry 16, 5515-5520]. We have established that this modified amino function is the epsilon-NH2 group of a lysine residue. A heptapeptide which includes this modified lysine residue was isolated, and its sequence was found to be Cys-Ser-Ala-Thr-Lys-Tyr-Met. The amino acid sequence was the same as that determined for peptides containing the active-site lysine residue which forms a Schiff base with pyridoxal phosphate. Therefore the epsilon-NH2 group of the active-site lysine which binds pyridoxal phosphate is capable of interacting with the beta carbon of trifluoroalanine, and presumably the beta carbon of normal substrates. We therefore propose that this lysine residue may function as a proton-transfer agent in the reactions catalyzed by gamma-cystathionase.
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PMID:Identification of the active-site residue of gamma-cystathionase labeled by the suicide inactivator beta, beta, beta-trifluoroalanine. 713 7

The contribution of cystathionine gamma-lyase, cystathionine beta-synthase and cysteine aminotransferase coupled to 3-mercaptopyruvate sulphurtransferase to cysteine desulphhydration in rat liver and kidney was assessed with four different assay systems. Cystathionine gamma-lyase and cystathionine beta-synthase were active when homogenates were incubated with 280 mM-L-cysteine and 3 mM-pyridoxal 5'-phosphate at pH 7.8. Cysteine aminotransferase in combination with 3-mercaptopyruvate sulphurtransferase catalysed essentially all of the H2S production from cysteine at pH 9.7 with 160 mM-L-cysteine, 2 mM-pyridoxal 5'-phosphate, 3 mM-2-oxoglutarate and 3 mM-dithiothreitol. At more-physiological concentrations of cysteine (2 mM) cystathionine gamma-lyase and cystathionine beta-synthase both appeared to be active in cysteine desulphhydration, whereas the aminotransferase pathway did not. The effect of inhibition of cystathionine gamma-lyase by a suicide inactivator, propargylglycine, in the intact rat was also investigated; there was no significant effect of propargylglycine administration on the urinary excretion of total 35S, 35SO4(2-) or [35S]taurine formed from labelled dietary cysteine.
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PMID:Characterization of the enzymic capacity for cysteine desulphhydration in liver and kidney of the rat. 715 Feb 44

Developmental changes in the activities of cystathionine beta-synthase and cystathionine gamma-lyase were measured in six regions of rat brain. On day-1, no differences were observed in the activities of cystathionine beta-synthase and cystathionine gamma-lyase among these regions, the values being about 40 nmol/h/mg protein, and 3 nmol/h/mg protein, respectively. Cystathionine beta-synthase activity increased gradually during development at almost the same rate in each region, reaching the adult level at week-4 (about 4-fold). Cystathionine gamma-lyase activity also increased during development, reaching adult level at week-2. But, the increase of enzyme activity in the cerebellum (about 1.8-fold) was clearly lower than that in the other regions (about 4-fold). Cystathionine gamma-lyase content in the various regions of week-3 rat brain estimated by immunoblotting was consistent with the enzyme activity, and the enzyme level in the cerebellum was lower than that in the other regions. Cystathionine content of cerebellum in week-3 increased rapidly during development, and was about five-fold more than that on day-1. However, cystathionine content in the other regions did not change during development. These findings indicated that at least one reason of the high content of cystathionine in the 3 weeks rat cerebellum was due to the low level of cystathionine gamma-lyase.
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PMID:Changes in cystathionine gamma-lyase in various regions of rat brain during development. 749 71

The levels of glutathione and glutathione disulfide increased during the regeneration process of rat liver, reaching a maximum (about twice the control value) on day 2 and reverting to the normal level within 5 days. During this regeneration process, changes in the hepatic level of cysteine, glycine and glutamate, the substrates for glutathione synthesis, were determined. The cysteine level in liver increased, reaching a maximum on day 2 and returned to the normal level after 5 days. The levels of glycine and glutamate did not change. The enzyme activities of cystathionine-beta synthase and gamma-cystathionase for cysteine synthesis, and of gamma-glutamylcysteine synthetase, which is a limiting enzyme for glutathione synthesis, were clearly increased in regenerating liver. The increase of glutathione level could be clearly accounted for by the elevation of these enzyme activities.
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PMID:Changes in levels of glutathione and related compounds and activities of glutathione-related enzymes during rat liver regeneration. 765 34

The tissue and subcellular distribution in liver and kidney of bound and acid-labile sulfur as well as the enzyme capacity for sulfide production related to the desulfuration pathway were determined in rats. Bound sulfur was widely distributed in tissues and highest in kidney, whereas acid-labile sulfur was highest in heart. Bound sulfur was found primarily in the cytosolic fraction in the form of high molecular weight material in liver, and as both high and low molecular weight material in kidney. Acid-labile sulfur was located in the mitochondrical fraction. Sulfide production capacity from cysteine was greatest in liver cytosol. This capacity was well correlated with the distribution of gamma-cystathionase in tissues and subcellular fractions.
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PMID:Tissue and subcellular distribution of bound and acid-labile sulfur, and the enzymic capacity for sulfide production in the rat. 773 93

Rats fed with a vitamin B6-deficient 70% casein diet for 5 weeks were found to have decreased considerably in the content of phosphatidylcholine (PC) in liver microsomes, presumably because of the depressed PC biosynthesis from choline or phosphatidylethanolamine (PE). The activities of choline phosphokinase and choline phosphotransferase in liver decreased, apparently, as compared with the pair-fed control or control rats. The hepatic level of the PE methyltransferase co-substrate, S-adenosylmethionine (SAM), decreased about 1/3, but the level of the inhibitory metabolite, S-adenosylhomocysteine (SAH), was elevated due to the marked reduction in the activities of cystathionine beta-synthase and gamma-cystathionase. The resultant molar ratio of SAM/SAH decreased drastically such that the methylation of PE to PC was decreased in vivo, as confirmed by lowering the activity of PE methyltransferase in vitro in response to a decreased molar ratio of SAM/SAH. A similar effect on the PE methylation was also observed in the pair-fed control rats, but the PC biosynthesis from choline clearly compensated for the drop of PC biosynthesis from PE. Results of this study demonstrate that vitamin B6 deficiency modified methionine metabolism and decreased choline utilization, and thus indirectly affected the biosynthesis of PC in liver microsomes.
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PMID:Alteration in the phosphatidylcholine biosynthesis of rat liver microsomes caused by vitamin B6 deficiency. 776 14

Because glutathione (GSH) is an important antioxidant, we hypothesized that changes in lung and systemic availability of GSH and its precursor amino acid, cysteine, are induced by exposure to hyperoxia and that these changes could be modulated by toxic O2 metabolites. In organs and plasma of mice exposed to hyperoxia, we measured GSH and sulfur-containing amino acids (SAAs), the latter by capillary gas chromatography-mass spectrometry. In relatively O2-resistant Swiss-Webster mice, lung GSH increased during O2 exposure, whereas liver GSH (the major storage pool of cysteine) and liver and plasma cysteine all decreased. Pair-feeding studies suggested that nutritional deprivation alone did not cause the decrease in plasma cysteine. In lung, SAAs were not decreased by O2 exposure. In fact, cystathionine increased sixfold, and gamma-cystathionase was not inhibited. These findings suggest that hyperoxia increases transsulfuration pathway activity and that cystathionase rate limits this process in lung. In comparative studies, lung GSH increased in O2-resistant high-CuZn superoxide dismutase (SOD) transgenic mice but not in genetically similar, nontransgenic controls (CBYB/6 x B6D/2) during hyperoxic exposure. In addition, liver GSH and plasma cysteine decreased in nontransgenic control but not in high-SOD mice, whereas lung cystathionine increased similarly in both groups. Thus, superoxide or its secondary products can modulate, at least in part, the changes in cysteine and GSH. Nonetheless, regardless of strain or SOD status, hyperoxic exposure consistently caused thiol and SAA changes, including increased lung cystathionine and oxidized GSH, demonstrating a strong association between these dynamic changes and oxidant stress.
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PMID:O2-induced changes in lung and storage pool thiols in mice: effect of superoxide dismutase. 848 94

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