GSH

HOOCCH2CH2CH2COOH. M.p. 97-98 C, b.p. 302-304°C. Prepared by treating 1,3-dichloropropane with sodium cyanide and heating the product with NaOH. Forms an anhydride on heating at 230-280 C. glutathione, glutamylcysteinylglycine, GSH, CioH. NaOfiS. M.p. 190-192 C (decomp.). 

Fig. 7. The glutathione peroxidase (a selenium enzyme) system where GSH = A -(A -L-7-giutamyi -L-cysteinyi )giycine and G—S—S—G, the disulfide.

Recognition of the thio group s key role in biochemistry has led to studies of l,4-ben2oquinone with glutathione, a tripeptide 7-Glu-Cys-Gly (GSH). The cross-oxidation of the initial addition product by excess quinone leads, under physiological conditions, to all three isomeric products (46), ie, the 2,3-and 2,6-isomers as well as the 2,5-disubstituted l,4-ben2oquinone shown. 

A variety of other metals and their complexes have been studied for radioprotective activity. Among these are copper glycinate, strontium chloride, ZnNa -diethylenetriaminepentaacetate (ZnDTPA), and selenium, which has been studied because of its relationship to endogenous antioxidant mechanisms, especiaHy GSH peroxidase and vitamin E. 

DMPG, whereas combinations of DMPG with cysteine, glucan, GSH, or 5-hydtoxytryptamine are only additive (255). 

MDR-ABC Transporters. Figure 3 Detoxification cellular mechanisms. X, toxic compound X-OH, oxidized toxic compound GS-X, conjugated toxic compound OATP, organic anion transporting proteins CYPs, cytochromes GSH, glutathion UDPGIcUA, Uridine 5-diphosphoglucuronic acid PAPs, 3-phosphoadenylylsulfate. 

The FAD-dependent enzyme glutathione reductase plays a role in the antioxidant system. Glutathione reductase restores reduced glutathione (GSH), the most important antioxidant in erythrocytes, from oxidized glutathione (GSSG) [1, 2]. 

Okada et al. examined the effects of TBT on cellular content of glutathione (GSH) in rat thymocites using a flow cytometer and 5-chloromethylfluorescein diacetate, a fluorescent probe for monitoring the change in the cellular content of GSH. TBT at nanomolar concentrations reduced the cellular content of GSH. There is an important implication on the TBT-induced depletion of cellular GSH since GSH has an important role in protecting the cells against oxidative stress and chemical and metal intoxications. TBT-induced decrease in cellular content of GSH in thymocytes may increase the vulnerability of the immune system. ° ... 

Balb c mice and Wistar rats were used in the experiments. The administration of single doses of 1, 2 and 2 caused mainly necrotic changes in the liver, measured by GPT and histopathology. The extent of necrosis depended on doses and on time of observation (1-4 days after injections). In shorter time interval (2-4 hrs) 1, 2 and 2 caused depletion of hepatic GSH (even up to 10 % of control). 4 and 5 did not generate necrotic changes. Increased GPT activity was observed after 3 doses of fi. Single doses of 4, 5 and fi mostly increased the level of malondialdehyde (MDA-indicator of lipid peroxidation) in the liver. Repeated injections (3-7) of the investigated compounds enhanced the activity of ALA-D or ALA-S in the liver and caused steatosis. 

Activities of glutamate-pyruvate transaminase (SGPT, GPT) (EC 2.6.1.2), L-y -glutamyl-transferase (y-GT) (EC 2.3.2.2) and level of triglycerides (TG) in serum, as well as levels of glutathione (GSH) and malondialdehyde (MDA) in the liver were determined. 

The glutathione (GSH) level was assayed by the method of Sedlak and Lindsay (ref. 14), using Ellman s reagent (5,5-dithio-bis-(2-nitrobenzoic acid). Calibration was carried out parallely to each series, using reduced glutathione as a standard. 

This considerable decrease of GSH level following 1 was accompanied by the increase of SGPT (GPT) activity in the serum and necrosis in the liver (Fig. 2). No such changes were noticed after injection of 5. 

Fig. 2. The level of GSH in mice liver and the activity of GPT (SGPT) in serum after single...

Similar decrease in GSH levels, increase in GPT activity and extent of necrosis, as after administration of 1, can be observed, after dibromobenzenes injection (Fig. 4). The extent of the effect depended on the applied isomer and dose. 

The activity of y-GT as well as the level of TG and GSH after repeated administration of the studied compounds did not change. The increase of GPT activity in rats serum was observed only after 3 doses of tetrabromobisphenol A 6 (1000 mg/kg). 

Bromobenzene, similarly to acetaminophen, is considered as model compound in liver necrosis (refs. 9-11, 20, 21). After the administration of these compounds, a considerable decrease in GSH levels, an increase in GTP activity in the serum and, histopathologically, necrosis of hepatocytes are observed. 

A single dose of 2 and 2 administered to mice in different doses resulted in considerable decrease of liver GSH concentration shortly after the administration of both isomers, followed later, by a significant increase of GTP activity, as well as... 

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