UMLS:C1260386 - FACTA Search

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

Cobalt deficiency was produced in goats by feeding them rhode grass hay. The deficient animals excreted increased amounts of methyl malonic acid in their urine, indicating a lack of vitamin B12. Erythrocyte reduced glutathione levels increased with the onset of anemia. There was a concomitant increase in the levels of erythrocyte glutathione reductase (GSSG NADPH Reductase) and glutathione peroxidase (GSH:H2O2 peroxidase)during deficiency. These results are compared with similar observations reported for vitamin B12 deficiency in humans.
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PMID:Erythrocyte glutathione metabolism in cobalt-deficient goats. 103 28

Insulin degradation by glutathione-insulin transhydrogenase has been studied using three different assay procedures: the measurement of the change in insulin immunoreactivity; the formation of 5% trichloroacetic acid-soluble radioactivity from 125 I-labeled insulin and the formation of GSSG via coupling to the oxidation of NADPH with the use of glutathione reductase. The extent of reaction as measured by each assay was different, and the ratios between the assays were not constant with time. Kinetic experiments with the NADPH-coupled assay and the trichloroacetic acid assay yielded similar results: Line-weaver-Burke plots with insulin as variable and GSH as fixed substrate gave a set of straight, intersecting lines, and such plots with GSH as variable and insulin as fixed substrate were parabolic. Apparent Km values for insulin at 1 mM GSH were found to be quite similar by three assay techniques; however, the V values per unit of enzyme protein varied considerably with different procedures. The results are interpreted as indicating that immunoreactivity is lost after reduction of only one of the disulfide bonds of insulin whereas the two interchain disulfide linkages must be broken to produce the trichloroacetic acid-soluble A chain. The results of the NADPH-coupled assay suggest that all three disulfide bonds of insulin are possible substrates for the enzyme. The trichloroacetic acid precipitation assay seems to be the most practicable technique for general use because of the greater ease in performing large number of samples, precision and sensitivity.
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PMID:Insulin degradation. XV. Use of different assay methods for the study of mechanism of action of glutathione-insulin transhydrogenase. 115 83

The reduction of mixed disulphides of some proteins and GSH [Protein(-SSG)n] is accomplished with GSH as a reductant and a thioltransferase from rat liver as a catalyst, thus: See article. The spontaneous reaction is negligible in comparison with the enzymic reaction in vivo, and any direct reduction with glutathione reductase is not detectable with the substrates used. The reduction is only indirectly dependent on NADPH, which is required for the regeneration of GSH from GSSG. Other protein disulphides apparently are reduced via analogous GSH-dependent reactions
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PMID:Reduction of disulphide bonds in proteins mixed disulphides catalysed by a thioltransferase in rat liver cytosol. 120 Oct 3

The product of the reaction between sodium selenite and glutathione, designated as selenodiglutathione (GSSeSG), nearly completely inhibits amino acid incorporation from [14C]leucyl-tRNA by free polyribosomes isolated from rat liver. The mechanism of this inhibition was studied on the basis of the following three findings. Glutathione decomposes GSSeSG to harmless products; GSSeSG acts instantaneously on some component of the complete incubation system during preparation of the incubation vessels (at 0 degrees C); once GSSeSG has reacted its inhibitory effect cannot be reversed by glutathione. Accordingly, the effect of GSSeSG on the various steps of the amino acid incorporation process was studied by varying the sequence of additions of the reaction components, GSSeSG and GSH. The results of these and other experiments showed elongation factor 2 to be target of GSSeSG. The GSSeSG-B blocked factor could be regenerated by reduction with glutathione reductase and NADPH.
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PMID:Elongation factor 2 as the target of the reaction product between sodium selenite and glutathione (GSSeSG) in the inhibiting of amino acid incorporation in vitro. 120 59

Using a selection of 'classic' haptens (dinitrohalobenzenes and picryl chloride) and related non-sensitizing analogous, we examined changes in levels of glutathione (GSH) and glutathione disulphide (GSSG) in mouse skin 12 h after their epicutaneous application. We observed that elevation of GSSG levels and/or depletion of GSH levels correlated well with contact allergenic potential. Non-sensitizing analogous failed to perturb GSH/GSSG status. In vitro assays using mouse skin and rat liver microsomal preparations indicated that only the allergenic nitrohalobenzenes initiated NADPH-dependent oxygen utilization, with the activity falling off in the order picryl chloride >> DNIB > DNBB > DNCB > DNFB. In addition, an examination of the colour of mouse skin homogenates ex vivo after application of the dinitrohalobenzenes showed significant yellowing (consistent with aromatic nucleophilic substitution) only with DNFB. Our results indicate that, while an aromatic nucleophilic substitution reaction with skin protein can possibly account for the allergenicity of DNFB, it does not seem to occur with DNCB, DNBB or DNIB. These may instead behave mainly as prohaptens which are activated enzymically by NADPH-dependent reductase(s) within the skin, with the concomitant generation of superoxide and hydrogen peroxide, to form potentially protein-reactive free radical and other metabolites. Picryl chloride appears capable of both conjugating directly with proteins by aromatic nucleophilic substitution and undergoing NADPH-dependent metabolism to other potentially protein-reactive metabolites.
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PMID:Biochemical responses of skin to allergenic and non-allergenic nitrohalobenzenes. Evidence that an NADPH-dependent reductase in skin may act as a prohapten-activating enzyme. 128 21

Erythrocyte sodium pump activity, osmotic fragility, and thiol status were measured in genetically hyperglycemic (db/db) mice and compared with their nondiabetic littermates (db/m). The data showed no major differences in these parameters. However, erythrocytes from streptozotocin (Stz)-induced diabetic rats had significantly lower activity of sodium pump and thiols with an almost fourfold increase in osmotic fragility as compared with erythrocytes from nondiabetic rats. Sorbinil (an aldose reductase inhibitor) treatment of Stz-diabetic rats normalized all these lesions, suggesting a key role for polyol pathway. However, sorbitol levels in erythrocytes from db/db and db/m mice were undetectable. The data suggest that in db/db mice, the relative lack of polyol pathway, a potential consumer of NADPH, may provide erythrocytes with optimal NADPH for glutathione reductase system, thus maintaining normal GSH levels even at the height of hyperglycemia. Thus, the genetically hyperglycemic mice may serve as a useful model to study diabetes related complications without involving polyol pathway.
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PMID:Erythrocyte sodium-potassium ATPase activity and thiol metabolism in genetically hyperglycemic mice. 131 May 17

Held et al. (1984a,b) demonstrated previously that glutathione (GSH), a negatively charged thiol, is significantly less efficient in the hydrogen atom donation repair reaction with radicals induced by radiation in transforming DNA (t-DNA) than are other thiol compounds. Fahey et al. (1991a,b) postulated that the charge on thiols can influence their ability to radioprotect DNA. GSH, which is excluded from the vicinity of DNA due to its negative charge, is less protective than neutral or positively charged thiols. We have investigated this phenomenon further with trypanothione, the conjugate of glutathione and spermidine, N1,N8-bis (L-gamma-glutamyl-L-hemicystinyl-glycyl)-spermidine. Trypanothione exists in aerobic solution largely as the disulphide (T(S)2) but is maintained in the cell in the reduced form (T(SH)2) by means of an NADPH-dependent flavo-enzyme, trypanothione reductase (TR). Experimental data show that T(S)2 in the presence of TR radioprotects t-DNA in the absence of oxygen much better than GSH or spermidine alone or in combination. Little radioprotection by T(S)2 is seen when TR is not present. The results obtained with reduced trypanothione at low concentrations suggest that radioprotection of t-DNA in hypoxia occurs predominantly by H atom donation and slightly by .OH radical scavenging, and the protection is greater than that by GSH or spermidine because the polyamine moiety in trypanothione allows a greater concentration of GSH near the DNA molecule.
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PMID:Effects of trypanothione on the biological activity of irradiated transforming DNA. 135 53

The covalent binding of a series of 14C- or 35S-labeled benzimidazole-2-thione (MBI) derivatives to rat liver microsomal proteins was studied to determine the mechanisms of hepatic monooxygenase oxidation of model anti-hyperthyroid compounds. All thiocarbamides tested (including methimazole) produced an NADPH-dependent loss of cytochrome P450 (P450) chromophore which could be prevented by the addition of glutathione (GSH). The covalent binding of MBI to liver microsomal proteins from dexamethasone (DEX)-pretreated rats was enhanced 10-fold with NADPH, unaffected by P450 inactivation with 1-aminobenzotriazole (ABT) and attenuated by GSH addition. Heat treatment of microsomes to inactivate the flavin-containing monooxygenase (FMO) decreased the observed binding. Equivalent amounts of [35S]- and [14C]MBI were covalently bound to hepatic microsomal proteins, suggesting retention of both the carbon and sulfur portions of the molecule in the MBI/protein adduct. Thiophilic reagents effected release of covalently bound [14C]- and [35S]MBI in equal amounts suggesting the presence of disulfide bonds between an MBI-derived sulfenic acid and microsomal protein thiols. Coincubation with bovine serum albumin (BSA) resulted in NADPH-dependent binding of [14C]-MBI to BSA sulfhydryls which was blocked by prior treatment of BSA with iodoacetamide. 1-Methyl-benzimidazole-2-thione (MMBI) also covalently bound to microsomal proteins and BSA but at levels lower than with MBI. P450, however, appeared to be more important than FMO in the metabolism of MMBI based on the effects of microsome heat pretreatment or ABT addition. In addition, ca. 1.5-fold more 35S- than 14C-label became bound. The covalent binding of [35S]1,3-dimethyl-benzimidazole-2-thione (DMMBI) to microsomal proteins was ca. six times greater than that of [14C]DMMBI. ABT, catalase and superoxide dismutase had a minimal effect on [35S]DMMBI binding, while FMO inactivation decreased binding by ca. 30%. These findings suggest that both monooxygenases contribute significantly to the hepatic metabolism of thiocarbamides. However, FMO activates thiocarbamides primarily to sulfenic acids, whereas P450 appears to produce both sulfenic acid and other reactive sulfur-derived metabolites. Thiol groups of P450 and other proteins are the molecular targets for these reactive species formed during the hepatic metabolism of anti-hyperthyroid drugs.
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PMID:Covalent binding of 14C- and 35S-labeled thiocarbamides in rat hepatic microsomes. 137 86

Some properties of [4-vinyl] chlorophyllide a reductase are described. This enzyme converts divinyl chlorophyllide a to monovinyl chlorophyllide a. The latter is the immediate precursor of monovinyl chlorophyll a, the main chlorophyll in green plants. [4-Vinyl] chlorophyllide a reductase plays an important role in daylight during the conversion of divinyl protochlorophyllide a to monovinyl chlorophyll a. [4-Vinyl] chlorophyllide a reductase was detected in isolated plastid membranes. Its activity is strictly dependent on the availability of NADPH. Other reductants such as NADH and GSH were ineffective. The enzyme appears to be specific for divinyl chlorophyllide a, and it does not reduce divinyl protochlorophyllide a to monovinyl protochlorophyllide a. The conversion of divinyl protochlorophyllide a to monovinyl protochlorophyllide a has been demonstrated in barley and cucumber etiochloroplasts and appears to be catalyzed by a [4-vinyl] protochlorophyllide a reductase [Tripathy, B.C., & Rebeiz, C.A. (1988) Plant Physiol. 87, 89-94]. On the basis of reductant requirements and substrate specificity, it is possible that two different 4-vinyl reductases may be involved in the reduction of divinyl protochlorophyllide a and divinyl chlorophyllide a to their respective 4-ethyl analogues.
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PMID:Chloroplast biogenesis: [4-vinyl] chlorophyllide a reductase is a divinyl chlorophyllide a-specific, NADPH-dependent enzyme. 139 Jun 30

Treatment of isolated mitochondria from rat hepatoma tumor cells (AS-30D) with the oxidant, t-butyl hydroperoxide (tBuOOH, 1 or 5 mumol/ml) resulted in the oxidation of glutathione (GSH to GSSG) and the formation of protein-glutathione mixed disulfides (ProSSG). The GSSG was retained inside of the hepatoma mitochondria. In the presence of ADP+succinate (5 or 10 mM), or ketoglutarate (10 mM) or malate (5 mM), the GSSG was reduced to GSH, but the amount of ProSSG stayed constant. With saline or ADP+glutamate (10 mM)/malate (0.1 mm) no reduction of GSSG to GSH occurred. The presence of antimycin (5 micrograms/ml) with ADP+succinate inhibited reduction. At a concentration of 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU, 0.5 mM) which inhibited a major portion of the glutathione reductase activity, the reduction of GSSG to replenish GSH was also inhibited. NADPH may play a critical role as well, for the addition of 2.4 mM NADPH to permeabilized hepatoma mitochondria fostered the reduction of GSSG after tBuOOH treatment. Therefore, hepatoma mitochondria possess a glutathione reductase-dependent system to reduce GSSG to GSH. The reaction only occurs with actively respiring mitochondria.
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PMID:Glutathione disulfide reduction in tumor mitochondria after t-butyl hydroperoxide treatment. 139 20

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