Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C1260386 (GSH)
38,102 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Cathepsin H is an endoaminopeptidase belonging to the group of thiol enzymes. It was purified from rat liver lysosomes by gel filtration on Sephadex G-75, chromatography on CM-Sephadex C-50, on DEAE-Cellulose DE-52 and subsequently on an organomercurial absorbent. 2. The molecular weight of cathepsin H was found to be 28,000 and the isoelectric point was estimated to be at pH 7.1 by analytical isoelectric focusing. 3. Cathepsin H has to be designated as endoaminopeptidase, because it catalyzes the hydrolysis of proteins, N-terminal substituted proteins and amino acid derivatives, respectively, as well as of peptides of various chain length and N-terminal free amino acid derivatives. Cathepsin H shows amidase and esterase activity, but it does not show carboxypeptidase activity. The finding of the amino- and endopeptidase nature of cathepsin H has been revealed mainly by the results obtained with inhibitors and by the rather high temperature stability of the enzyme. The chlormethyl ketone of leucine proves to be the strongest inhibitor of the aminopeptidase as well as of the endopeptidase activity, whereas leupeptin endopeptidase activity and endopeptidase substrates inhibit competitively the aminopeptidase activity. 5. Cathepsin H shows highest activity at pH 6.0 in the presence of 1--5 mM GSH and EDTA. 6. The enzyme is stable for several months at slightly acid pH values in a deep frozen state.
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PMID:Cathepsin H: an endoaminopeptidase from rat liver lysosomes. 90 30

Based on the identification of intracellular esterase activity as one early target of sulfamethoxazole hydroxylamine (SMX-HA), we wished to determine if the metabolite affected immune functions which involve esterases. The natural killer (NK) activity of human peripheral blood mononuclear cells (PBMC) was assessed with a cell concentration fluorescence technique following exposure to SMX-HA. When K562 target cells were incubated (4 hr/37 degrees) with various ratios of untreated PBMC effector to K562 target cells (E:T), NK activity increased from 17.8 +/- 3.1% (mean +/- SEM; N = 12) at an E:T ratio of 5:1 to 46.2 +/- 2.0% at an E:T ratio of 40:1. Pretreatment of fresh PBMC with 0.1 to 1.0 mM SMX-HA produced a concentration-dependent inhibition of NK activity (E:T ratio 40:1) reaching approximately 80% at 1 mM SMX-HA. Maximum suppression of NK activity was completed within a 60-min pretreatment period with measurable inhibition detected within 30 min. The viability of effector cells was not affected by the metabolite during the pretreatment period. Therefore, the SMX-HA effects could not be directly attributed to decreased viability of the effector cells; they were irreversible and could be prevented by the inclusion of exogenous reduced glutathione (GSH) in a concentration-dependent manner. Given the important roles of NK cells in immune responsiveness and host resistance, our findings of rapid functional inactivation of the cytolytic effector function provide a possible link between idiosyncratic drug toxicity and drug effects directly on components of the immune system.
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PMID:Cellular toxicity of sulfamethoxazole reactive metabolites--II. Inhibition of natural killer activity in human peripheral blood mononuclear cells. 199 6

L-Buthionine-(S,R)-sulfoximine (BSO) specifically depletes GSH synthesis by inactivating gamma-glutamylcysteine synthetase, whereas 2-ME augments intracellular GSH concentration. These reagents were used to examine GSH regulation of the proliferation and function of human PBL in response to IL-2 or OKT-3 mAb directed at the CD3 T cell Ag. 2-ME enhanced both IL-2-induced proliferation of PBL and CD3- large granular lymphocytes (LGL) and OKT-3 mAb-induced proliferation of CD3+ T cells. BSO partially suppressed activation-induced proliferation in CD3- LGL and CD3+ T cells and totally inhibited the positive co-proliferative regulation by 2-ME in these cells. By contrast, neither BSO nor 2-ME appeared to affect the activation-dependent differentiation of cytotoxic lymphocytes. The absence of effect of 2-ME or BSO on activation-induced PBL NK activity and T cell cytotoxic potential was supported by their negligible effect on the induction of two different markers of activated cytotoxic lymphocytes, namely pore-forming protein gene expression and benzoyloxycarbonyl-1-L-lysine thiobenzylester-esterase activity. BSO inhibition of CD3- LGL proliferation accounted for the inhibitory effects of BSO on both IFN-gamma production in IL-2-stimulated PBL cultures and IL-2-induced PBL lymphokine activated killer activity. The modulatory effects of 2-ME and BSO on lymphocyte proliferation regardless of phenotype (LGL vs T cell) or stimulation (IL-2, via CD3, lectin, etc.) and the functional differentiation of cytotoxic lymphocytes independent of proliferation suggests that these cells share a common site of GSH regulation close to or at the level of DNA synthesis.
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PMID:Glutathione modulates activation-dependent proliferation of human peripheral blood lymphocyte populations without regulating their activated function. 200 86

Preparations of enriched fractions of extracellular fluid (ECF) proteins from goldfish brain were found to contain protease(s) and esterase(s). The N-substituted furanacryloyl (FA) peptides FA-Phe-Gly-Gly and FA-Phe-OMe were used as model substrates for determining protease and esterase activity, respectively, in a spectrophotometric assay. Studies of the profile of substrate specificity and identification of the types of compounds that were effective as inhibitors showed that these ECF enzymes have some distinctive properties. GSH, but not GSSG, and EDTA inhibited the protease(s) without influencing the esterase(s), whereas L-1-tosylamide-2-phenylethylchloromethyl ketone blocked both protease and esterase activities of ECF. Most of the protease and esterase properties of ECF could be bound to concanavalin A-Sepharose affinity chromatographic columns in association with ependymin--a brain extracellular protein. These observations indicate that ECF may contain a metalloprotease(s) and raise the possibility that the ependymins might be a substrate for these ECF enzymes.
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PMID:Extracellular fluid proteins of goldfish brain: evidence for the presence of proteases and esterases. 309 Feb 6

The glutathione-protein binding interactions of rat renal gamma-glutamyltransferase (gamma GT) were studied by examining the effect of phenylglyoxal (PGO), a chemical modifying agent for arginyl residues. PGO inactivation of gamma GT followed pseudo-first order kinetics and the rate was dependent upon the concentration of PGO. Glutathione (GSH) protected the enzyme from inactivation by PGO. The anti-tumor drug L-(alpha S, 5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid (AT-125) inactivated purified gamma GT. The inactivation capability of AT-125 was abolished by esterification of the carboxyl moiety and was regained upon incubation of AT-125 methyl ester with a carboxyl esterase. AT-125 and glutathione may bind to gamma GT via the electrostatic interaction of their respective carboxyl group(s) and an arginyl residue at the active site.
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PMID:The binding mechanism of glutathione and the anti-tumor drug L-(alpha S, 5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid (AT-125;NSC-163501) to gamma-glutamyltransferase. 613 18

(1) The genetics of malathion resistance in two strains of the flour beetle, Tribolium castaneum, was investigated. In CTC-12, resistance is polygenic, while in Kano, it is due to a dominant allele at a single autosomal locus. Reciprocal hybrids with the susceptible control strains bb and pp showed an overdominant response in particular when Kano was the male parent in the original cross. (2) Three possible genetic mechanisms to explain these results are discussed. The model which best explains the genetic results, particularly the difference between the reciprocal crosses, assumes a modifier resistance allele on the Y chromosome. (3) The levels of activity of total esterases, carboxylesterases, mixed-function oxidases, epoxide hydrase, and glutathione transferase in the parent strains and their hybrids were measured quantitatively. Although total esterase activity may not be relevant for the breakdown of malathion, it was inhibited by the pesticide. The activity of the microsomal enzymes was high in CTC-12, low in bb, and intermediate in the hybrids, while carboxylesterases were very active in Kano as well as in the hybrids with bb and low in the latter. These patterns agree with the genetics of resistance in the two strains. A higher level of GSH transferase in the Kano x bb hybrids than in Kano seems to indicate a possible biochemical mechanism for their overdominant resistance.
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PMID:Malathion resistance in Tribolium strains and their hybrids: inheritance patterns and possible enzymatic mechanisms (Coleoptera, Tenebrionidae). 713 93

Chymotrypsin and neurotoxic esterase (NTE) have some similarities. After inhibition of concentrated (80-800 micro M) chymotrypsin by aryl saligenin cyclic phosphates it is known that aging occurs and some phenolic material becomes attached to protein. This binding has now been shown to be a manifestation of non-specific reaction with any available electrophile such as Tris, reduced glutathione (GSH), or protein. The reaction is therefore not a model for the 100% efficient transfer of alkyl groups to protein which occurs during aging of NTE inhibited by dialkyl phosphates.
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PMID:Biochemical events in delayed neurotoxicity: is aging of chymotrypsin inhibited by saligenin cyclic phosphates a model for aging of neurotoxic esterase? 737 5

Esters of cysteine, such as cysteine isopropylester (CIPE) or cysteine cyclohexylester (CCHE), are efficient delivery systems for cysteine to cells. After enzymic cleavage, the esters of cysteine provide a source of cellular cysteine, which may support reduced glutathione (GSH) synthesis and/or act as a direct chemoprotectant. Reducing esterase activity of rat lung slices or isolated hepatocytes with paraoxon or bis(4-nitrophenyl) phosphate or by reducing the temperature to 4 degrees dramatically altered the metabolism of esters of cysteine; the initial increase in cellular cysteine was slowed, the residency time of cysteine esters in the extracellular pool was prolonged without substantially enhancing the levels of intracellular ester. Incubation of lung slices with CIPE at 4 degrees led to a marked increase in cellular cysteine, which prior inhibition of esterase activity abolished. Inhibiting the neutral amino acid uptake systems, ASC and L, while effecting the uptake of cysteine, did not reduce the elevation of cellular cysteine by CIPE. We propose that the elevation of cellular cysteine by esters of cysteine may be mediated by membrane associated esterase activity.
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PMID:A novel role for carboxylesterase in the elevation of cellular cysteine by esters of cysteine. 821 62

Glutathione (GSH) was shown to regulate the generation of IL-2-dependent activated killer cells. Generation of alpha CD3-activated killer cells CD3-AK was regulated by both IL-2 and IL-4. In the present study the role of GSH in the regulation of IL-4-dependent CD3-AK cells was examined. After initial activation of mouse splenocytes by alpha CD3, subculturing the CD3-AK cells in IL-4 resulted in the production of IL-4-dependent killer cells whose proliferative and cytolytic activities were abrogated by alpha IL-4 antibody 11B11. Adding graded doses of BSO, a GSH synthetase inhibitor, into CD3-AK cells culturing in IL-4 resulted in the reduction of their proliferative and cytotoxic responses. Adding exogenous GSH reversed the inhibitory effect of BSO and restored the proliferation and cytolytic activity of IL-4-dependent CD3-AK cells. The dose requirement for BSO to affect the IL-4-dependent CD3-AK cells was similar to that for the IL-2-dependent CD3-AK cells. These findings indicate that GSH also regulates the function of IL-4 in the activation and differentiation of CD3-AK cells. To further study the mechanism for the GSH regulation of the cytolytic activity of CD3-AK cells, we found that BSO did not reduce the production of BLT-esterase which contained mostly the cytolytic granules; in fact, BLT-esterase production was often increased by BSO. Furthermore, the exocytosis and effector function of cytolytic granules were also not affected by BSO. Thus it appears that reduction of cellular GSH may result in the accumulation of defective cytolytic granules which accounts for the reduction of killer cell cytolytic activity.
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PMID:Regulation by glutathione of the activation and differentiation of IL-4-dependent activated killer cells. 833 Mar 19

A colloquium entitled Phase II enzymes and bioactivation was held during the 10th International Symposium on Microsomes and Drug Oxidations in Toronto, Ont., on July 20, 1994. This colloquium was a tribute in recognition of the contributions by Dr. James R. Gillette in advancing our understanding of drug metabolism and chemical toxicity. A major focus of the colloquium was formation of conjugates such as those with glutathione (GSH) that may not lead to detoxification but to bioactivation. The GSH conjugates may be further metabolized to reactive species that cause toxicity. The nephrotoxicity of hydroquinone and bromobenzene is mediated via quinone - glutathione conjugates, and is manifested in cellular changes, including induction of the gadd-153 and hsp-70 mRNA. The formation of GSH conjugates is also involved in the bioactivation of the vicinal dihalopropane 1,2-dibromo-3-chloropropane; cytotoxic lesions are observed in the kidney and testes The evidence indicates that conjugation is mediated by the GSH S-transferases. The symposium also covered aspects of the importance of conjugation in the pharmacokinetics of certain drugs. Conjugation reactions including sulfation are markedly influenced by the manner in which the liver processes the drug. Characteristics such as erythrocyte binding, as in the case of acetaminophen, become limiting factors in the conjugation reactions. Conjugation reactions can lead to a different outcome, such as acquired drug resistance. Conjugation of metallothioneins with the alkylating mustard drugs melphalan and chlorambucil can lead to the formation of protein adducts. Conjugation of reactive intermediates with these small molecular weight proteins may be considered as a phase II reaction and a mechanism of detoxification. A different pathway for the metabolism of xenobiotics is catalyzed by the carboxylesterases, a family of enzymes that is involved in hydrolysis of chemical compounds, generally leading to detoxification. Three rat esterases have been purified, cloned, and characterized. Two forms, hydrolase A and hydrolase B, are present in liver microsomes in a number of species, including the human. These are also detected in extrahepatic tissues. A third esterase, hydrolase S, is found in rat liver microsomes and rat serum, and may be a serum carboxylesterase secreted from the liver. A better knowledge of esterases will advance our understanding of pharmacokinetics and mechanisms of the effects of chemicals such as phenacetin and acetaminophen, two drugs that Dr. Gillette has worked with extensively. The data presented herein reflect the new and innovative approaches that have been adopted to investigate various aspects of chemical toxicity and drug metabolism. These data also indicate that significant insights are likely to come from integrated approaches utilizing established toxicological techniques together with those from other disciplines, including molecular biology and analytical chemistry.
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PMID:Phase II enzymes and bioactivation. 874 31


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