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Glutathione, reaction with

Figure 45-6. Interaction and synergism between antioxidant systems operating in the lipid phase (membranes) of the cell and the aqueous phase (cytosol). (R-,free radical PUFA-00-, peroxyl free radical of polyunsaturated fatty acid in membrane phospholipid PUFA-OOH, hydroperoxy polyunsaturated fatty acid in membrane phospholipid released as hydroperoxy free fatty acid into cytosol by the action of phospholipase Aj PUFA-OH, hydroxy polyunsaturated fatty acid TocOH, vitamin E (a-tocopherol) TocO, free radical of a-tocopherol Se, selenium GSH, reduced glutathione GS-SG, oxidized glutathione, which is returned to the reduced state after reaction with NADPH catalyzed by glutathione reductase PUFA-H, polyunsaturated fatty acid.)... Figure 45-6. Interaction and synergism between antioxidant systems operating in the lipid phase (membranes) of the cell and the aqueous phase (cytosol). (R-,free radical PUFA-00-, peroxyl free radical of polyunsaturated fatty acid in membrane phospholipid PUFA-OOH, hydroperoxy polyunsaturated fatty acid in membrane phospholipid released as hydroperoxy free fatty acid into cytosol by the action of phospholipase Aj PUFA-OH, hydroxy polyunsaturated fatty acid TocOH, vitamin E (a-tocopherol) TocO, free radical of a-tocopherol Se, selenium GSH, reduced glutathione GS-SG, oxidized glutathione, which is returned to the reduced state after reaction with NADPH catalyzed by glutathione reductase PUFA-H, polyunsaturated fatty acid.)...
The degradation of vinyl chloride and ethene has been examined in Mycobacterium sp. strain JS 60 (Coleman and Spain 2003) and in Nocardioides sp. strain JS614 (Mattes et al. 2005). For both substrates, the initially formed epoxides underwent reaction with reduced coenzyme M and, after dehydrogenation and formation of the coenzyme A esters, reductive loss of coenzyme M acetate resulted in the production of 5-acetyl-coenzyme A. The reductive fission is formally analogous to that in the glutathione-mediated reaction. [Pg.307]

Ridder, L. Rietjens, I.M. Vervoort, J.A. Mulholland, A., Quantum mechani-cal/molecular mechanical free energy simulations of the glutathione S-transferase (Ml-1) reaction with phenanthrene 9,10-oxide, J. Am. Chem. Soc. 2002,123, 9926-9936. [Pg.500]

Guengerich FP, Geiger LE, Hogy LL, et al. 1981. In vitro metabolism of acrylonitrile to 2-cyanoethylene oxide, reaction with glutathione, and irreversible binding to proteins and nucleic acids. Cancer Res 41 4925-4933. [Pg.109]

Aliosman, F., Caughlan, J., and Gray, G.S. (1989) Diseased DNA intrastrand cross-linking and cytotoxicity induced in human brain tumor cells by 1,3-fcis(2-chlorocthyl)-1 -nitrosourea after in vitro reaction with glutathione. Cancer Res. 49, 5954. [Pg.1042]

Metallothioneins (MT) are unique 7-kDa proteins containing 20 cysteine molecules bounded to seven zinc atoms, which form two clusters with bridging or terminal cysteine thiolates. A main function of MT is to serve as a source for the distribution of zinc in cells, and this function is connected with the MT redox activity, which is responsible for the regulation of binding and release of zinc. It has been shown that the release of zinc is stimulated by MT oxidation in the reaction with glutathione disulfide or other biological disulfides [334]. MT redox properties led to a suggestion that MT may possesses antioxidant activity. The mechanism of MT antioxidant activity is of a special interest in connection with the possible antioxidant effects of zinc. (Zinc can be substituted in MT by some other metals such as copper or cadmium, but Ca MT and Cu MT exhibit manly prooxidant activity.)... [Pg.891]

In these situations, biological activity will be reduced for reactive substrates that are consumed intracellularly or in a biological assay. In the case of TV-acyloxy-TV-alkoxyamides, those mutagens that are less prone to solvolysis or reaction with adventitious nucleophiles such as glutathione, will be present at higher concentrations at DNA, the intracellular target. [Pg.105]

Glutathione readily replaces the GSMe on platinum in the reaction with [Pt(dien)(GSMe)]2+ (GSMe = S-methylglutathione) - this system is claimed to be an effective model for cisplatin-protein interaction 224). Rate constants and activation parameters have been... [Pg.101]

Activation parameters A 77, AS and A I7 have been determined for all nine combinations of [Pd(LLL)(H20)]2+, LLL = dien, terpy, or bis(2-pyri-dylmethyl)amine reacting with L-cysteine (cys), DL-penicillamine (pen), or glutathione (glu) (250). All AS and A I7 values are negative, consistent with associative activation, but there is no AS /A l7 correlation, except for the three reactions with pen. Indeed all the reactions with... [Pg.105]

However, the reaction of NP with thiols may be a necessary but not sufficient cause for the release of NO from the ion as there are many thiols in frog heart tissue and NP is a vasodilator only under illumination. Furthermore Sogo et al. [50] could not detect NO generation from NP in human plasma containing cysteine, glutathione, homocysteine and reduced cysteine residues. Therefore, there must be a unique component of mammalian tissues which is involved in the release of NO from NP, and this reaction comes after reaction with thiol. Kowaluk et al. [51] report that NP is readily metabolised to NO in subcellular fractions of bovine coronary arterial smooth muscle and that the dominant site of metabolism is in the membrane fraction. This led to the isolation of a small membrane-bound protein or enzyme that can convert NP into NO. The mechanism shown in Scheme 8.2 combines the thiol reaction and that with an enzyme. [Pg.211]

Intracellular thiolate ligands such as glutathione (GSH, the tripeptide y-L-Glu-L-Cys-Gly) are believed to inactivate cisplatin because the reactions with cisplatin tend to be irreversible (35). Elevated levels of GSH have been observed in cisplatin-resistant cells. Recently, it has been shown that an MRP gene, which encodes a human ATP-dependent glutathione S-conjugate export pump (GS-X pump), is expressed at higher levels in cisplatin-resistant (HL-60/R-CP) cells than in sensitive cells (36). The GS-X pump may contribute to the excretion of Pt-GS complexes from cells (37). [Pg.189]

FIGURE 8.6 Oxidation of clozapine by activated neutrophils to a relatively stable nitrenium ion and subsequent reaction with glutathione. [Pg.151]

The reactions of nucleophiles with benzoquinone and related compounds can also be viewed as Michael reactions. Benzoquinone is one of the reactive metabolites of benzene, a solvent also associated with aplastic anemia (Fig. 8.14). A similar reactive metabolite is responsible for the hepatotoxicity of acetaminophen (Fig. 4.71), the most common cause of acute liver failure however, most of this reactive metabolite is detoxified by reaction with glutathione, and it is only when glutathione is depleted to approximately 10% of the normal level that significant toxicity ensues. [Pg.154]

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See also in sourсe #XX -- [ Pg.132 , Pg.133 , Pg.134 ]



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Glutathione reactions

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