EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have reported previously that a dietary deficiency in selenium results in an increase in glutathione S-transferase (GST) activity of various rat tissues. In order to verify that the increased GST activity observed in a selenium deficiency results from increased synthesis of GST protein, cytosolic fractions of livers obtained from rats fed selenium-deficient and selenium-supplemented diets were analyzed by Western (protein) blots. Antisera raised against purified individual GST subunits (Ya, Yb, and Yc) were used to detect the corresponding subunits on the blots. The Ya subunit was induced 2.5-fold in the selenium-deficient state. The amount of Yc subunit also increased significantly (p less than 0.05) in selenium deficiency but not to the extent of the Ya subunit. The Yb subunit was not significantly affected by altered selenium nutritional status. A corresponding increase in poly(A) RNAs coding for the Ya and Yc subunits was also observed by Northern blot analysis. Transcriptional activity of GST YaYc genes was elevated by approximately 2-fold in purified nuclei isolated from selenium-deficient rat livers, which is sufficient to account for the increase in YaYc mRNA levels. Therefore, it appears that transcriptional activation of rat liver YaYc genes is the primary cause for the elevation of the corresponding gene products in the selenium-deficient state. Since the GSTs, especially the isozymes containing Ya subunit, have been implicated in the formation of prostaglandin (PG) F2 alpha, we investigated the effect of selenium deficiency on the PGF2 alpha-forming activity using a specific inhibitor of GSTs, S-decyl-GSH. In rats fed a nutritionally adequate diet, the activity inhibited by S-decyl-GSH accounted for at least half of the conversion of PGH2 to PGF2 alpha. During selenium deficiency, this GST-catalyzed activity was approximately doubled with no change in PGF2 alpha formation by other pathways, resulting in a 2-fold increase in overall synthesis of PGF2 alpha. These data strongly support a role of GSTs, especially those composed of the Ya size subunit, in the synthesis of PGF2 alpha from PGH2.
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PMID:The induction of specific rat liver glutathione S-transferase subunits under inadequate selenium nutrition causes an increase in prostaglandin F2 alpha formation. 169 Jul 9

The effect of a low-protein diet (6% protein, LPD) in vivo on the in vitro activities of cytosolic and microsomal glutathione S-transferase (GST-c, GST-m) and microsomal UDP-glucuronyltransferase (UDP-GT) was studied in small intestine and liver of weanling male Wistar rats. LPD interrupted the normal curve of growth of the animals, which returned to control values after refeeding with a normal diet (27% protein, ND). Hepatic and intestinal GST-c increased in control rats in parallel with the growth curve. The microsomal enzymes did not show growth variations, except for intestinal UDP-GT activity which began to increase from the second day of ND. After 7 days of LPD there was an increase in GST-c (liver 35%, P less than 0.05; intestine 152%, P less than 0.01) and of UDP-GT (liver 58%, intestine 178%, P less than 0.05) which returned to control values after 2 days of refeeding with ND. GST-m did not show any variations in liver or intestine. The increase in GST-c, but not in GST-m, with nutritional stress suggests preferential induction of cytosolic enzymes in those enzymatic systems which are located in both positions. The increase in such enzymes after protein malnutrition could indicate an adaptive response by detoxification mechanisms, enhancing intestinal over hepatic capacity, perhaps because the intestine is the primary route of access for orally ingested xenobiotics.
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PMID:Intestinal phase II detoxification systems: effect of low-protein diet in weanling rats. 212 82

Pregnant rhesus monkeys (Macaca mulatta) were fed either selenium (Se) deficient or Se supplemented diets with adequate vitamin E. Except for some cardiac irregularities in the first babies born to these females, no physiological disorders due to Se deficiency were seen in a subsequent offspring. Plasma and erythrocyte glutathione peroxidase activities and blood Se levels increased in the Se supplemented monkeys but decreased in the deficient ones. The data indicated that hair Se levels reflect long term exposure to this element. In a very preliminary experiment, evidence was obtained to indicate that dietary protein deficiency along with Se deficiency will generate cardiomyopathic lesions characteristic of Se deficiency. It is hypothesized that, in addition to Se deficiency, another dietary deficiency (or abnormality) is necessary to produce Se deficiency lesions in higher primates. Higher glutathione transferase (or non-Se glutathione peroxidase) activity in tissues of rhesus monkeys may account for this resistance.
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PMID:Effects of feeding selenium deficient diets to rhesus monkeys (Macaca Mulatta). 334 74

Polycyclic aromatic hydrocarbons, found in cigarette smoke, food and industrial materials, are potential human carcinogens. Deficiency of detoxifying enzymes, such as glutathione transferases, may affect the metabolic fates of these chemicals and raise cancer risks in exposed individuals. The GSTM1 null genotype is a common form of glutathione transferase deficiency. Because knowledge of its ethnic distribution would be useful in epidemiologic studies, we measured the frequencies of the GSTM1 null genotype among healthy blacks, whites, Asian Indians, Chinese, Japanese, Koreans, Filipinos, Samoans and Hispanics. Rapid genotyping was done by use of a PCR assay, with dried blood spots on blotter paper as DNA templates. The frequency of the null genotype ranged from 0.31 among blacks to 0.88 among Samoans. The PCR assay was also applied to a pilot study of 114 bladder cancer cases from Kaiser Permanente Medical Center, Harbor City, California. DNA for these cases was obtained from paraffin-embedded surgical specimens. The overall odds ratio for bladder cancer with the GSTM1 null genotype was 1.4 (95% confidence interval 0.94-2.1), indicating no statistical difference in null genotype frequencies among bladder cancer patients compared to a healthy population. Large epidemiologic studies, which can be accomplished with dried blood spots or paraffin-embedded tissue specimens, may be useful for further assessment.
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PMID:Ethnic distribution of the glutathione transferase Mu 1-1 (GSTM1) null genotype in 1473 individuals and application to bladder cancer susceptibility. 820 72

Evidence accumulated over the years suggests that human erythrocyte membrane protein 4.2 is one of the proteins involved in strengthening the cytoskeleton-membrane interactions in the red blood cell. Deficiency of protein 4.2 is linked with a variety of hereditary haemolytic anaemia. However, the interactions of protein 4.2 with other proteins of the erythrocyte membrane remain poorly understood. The major membrane-binding site for protein 4.2 resides on the cytoplasmic domain of band 3 (CDB3). In order to carry out an initial characterization of its interaction with the CDB3, protein 4. 2 was subjected to proteolytic cleavage and gel renaturation assay, and the 23-kDa N-terminal domain was found to interact with band 3. This domain contained two putative palmitoylatable cysteine residues, of which cysteine 203 was identified as the palmitoylatable cysteine. Recombinant glutathione S-transferase-fusion peptides derived from this domain were characterized with respect to their ability to interact with the CDB3. Whereas these studies do not rule out the involvement of other subsites on protein 4.2 in interaction with the CDB3, the evidence suggests that the region encompassing amino acid residues 187-211 is one of the domains critical for the protein 4.2-CDB3 interaction. This is also the first demonstration that palmitoylation serves as a positive modulator of this interaction.
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PMID:Mapping of a palmitoylatable band 3-binding domain of human erythrocyte membrane protein 4.2. 1033 96

Protein-calorie malnutrition (PCM) can develop both from inadequate food intake and as a consequence of diseases such as cancer and AIDS. Several studies have shown that PCM can alter drug clearance but little information is available on the effect of PCM on individual cytochrome P450 isoforms and phase II conjugation enzymes. The aim of the present study was to begin a systematic evaluation of the effect of PCM on the activity of individual drug metabolizing enzymes in a rat model of PCM. Control and PCM rats received isocaloric diets which contained either 21% or 5% (deficient) protein. After 3 weeks, the animals were sacrificed and microsomal and cytosolic fractions prepared. Ethoxyresorufin O-deethylation (EROD), chlorzoxazone 6-hydroxylation, dextromethorphan N- and O-demethylation and 1-chloro-2,4-dinitrobenzene (CDNB) conjugation were used as measures of CYP1A, CYP2E1, CYP3A2, CYP2D1 and glutathione S-transferase (GST) activity, respectively. Additionally, NADPH-cytochrome P450 reductase activity was measured in the liver microsomes. PCM significantly reduced the maximum velocity (Vmax) of all model reactions studied. However, differential effects were observed with respect to K(m) values of the reactions. The K(m) values for EROD and dextromethorphan N-demethylation were significantly increased in PCM animals, whereas the K(m) values for chlorzoxazone 6-hydroxylation and dextromethorphan O-demethylation were decreased. In contrast, the K(m) value for CDNB conjugation was unchanged. When NADPH-cytochrome P450 reductase activity was compared, a 29% reduction in reductase activity was noted in PCM animals as compared to controls. Thus, it appears that PCM decreases the overall activity of certain phase I and phase II metabolism enzymes in rat liver while exhibiting differential effects on K(m). Furthermore, this reduction in activity may be due in part to diminished activity of cytochrome P450 reductase.
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PMID:Effect of protein-calorie malnutrition on cytochromes P450 and glutathione S-transferase. 1051 Jul 41

Protein-calorie malnutrition (PCM) represents a global health problem. The breakdown rate of glutathione S-transferase (GST) subunits determines their differential contents during protein depletion. Hepatic GST expression and the underlying mechanistic basis were investigated in PCM rats. PCM caused no change in rGSTA1/2 subunit. In contrast, rGSTA3/5 subunit was 2.4-fold induced during PCM, while the levels for rGSTM1 and M2 subunits were 30% and 70% suppressed. Increased GSTA3/5 expression was significantly prevented by cysteine or methionine treatment, although such treatment failed to restore the rGSTM2 level. In contrast to differential GST protein expression, PCM caused a 5-10-fold increase in rGSTA2/A3/A5 and M1 mRNAs, whereas rGSTM2 mRNA was 70% decreased. The elevations in rGSTA2/A3/A5 and M1 mRNAs were completely abolished by cysteine or methionine treatment during PCM, although the rGSTM2 mRNA level was not restored. PCM induced oxidative stress in the liver, as evidenced by protein carbonylation. Antioxidant response element (ARE)-binding activity of nuclear extracts from PCM rats was increased, which was immunodepleted with anti-Nrf-1/2 antibodies. Activation of nuclear ARE-binding proteins was inhibited by cysteine. Data showed that hepatic GSTs were differentially expressed during PCM, that certain GST mRNAs were increased with the ARE activation, and that cysteine was active in preventing increases in GST mRNAs and ARE activation.
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PMID:The effect of cysteine on the altered expression of class alpha and mu glutathione S-transferase genes in the rat liver during protein-calorie malnutrition. 1104 Apr 48

The aim of the present study was to evaluate the influence of severe protein-energy malnutrition on the antioxidant defense system in the small and large intestine in rats at weaning. Chronic diarrhea and the subsequent malnutrition were induced by oral intake of a lactose-enriched diet. Twenty rats were weaned at 21 days of age, and the control group was fed a semipurified synthetic diet for two weeks. The malnourished group was fed the same diet but carbohydrates were replaced by lactose, and they developed diarrhea one day after. Rats were killed, and macroscopic and histological features were analyzed, DNA content was measured, and alkaline phosphatase, myeloperoxidase, and gamma-glutamyltranspeptidase activities were determined to assess the degree of intestinal injury. Glutathione levels as well as the activities of intestinal glutathione transferase, glutathione reductase, total glutathione peroxidase, selenium-dependent glutathione peroxidase, superoxide dismutase, and catalase were measured to study the antioxidant defense system. Malnourished rats showed loss of body weight and an increase in length and weight in jejunum and ileum, while no significant changes were observed in colon. Epithelial cells showed fewer and shorter microvilli, larger mitochondria with low inner density and loss of cristae, dilated endoplasmic reticulum, and Golgi apparatus. The protein-to-DNA ratio was higher in the jejunum, ileum, and colon of malnourished rats. Glutathione levels decreased 40% in jejunum and 50% in colon of malnourished rats. A 40-50% decrease in the activity of all the enzymes of the antioxidant defense system was observed in the jejunum and ileum of malnourished rats, while only catalase and glutathione transferase activities decreased 50% in colon. These results suggest that early chronic diarrhea and severe protein-energy malnutrition impair the antioxidant defense system in both the small and large intestine, which may have a role in the pathogenesis and maintenance of the vicious circle of malabsorption-diarrhea-malnutrition in infancy.
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PMID:Chronic diarrhea impairs intestinal antioxidant defense system in rats at weaning. 1111 81

Protein 4.2 is a major component of the red blood cell membrane skeleton. Deficiency of protein 4.2 is linked with a variety of hereditary haemolytic anaemias. However, the interactions of protein 4.2 with other proteins of the erythrocyte membrane remain poorly understood. The major membrane-binding site for protein 4.2 resides on the cytoplasmic domain of band 3. Protein 4.2 interacts directly with spectrin in solution, suggesting that it stabilizes interactions between the membrane skeleton and the erythrocyte membrane. A 30 kDa polypeptide, with its N-terminus corresponding to amino acid residue 269, derived by partial proteolysis of protein 4.2, was found to interact with biotinylated spectrin in gel renaturation assays. A series of overlapping glutathione S-transferase fusion peptides were constructed, and an alpha-helical domain encompassing residues 470-492 was found to be instrumental in mediating protein 4.2-spectrin interactions. Direct binding of a synthetic peptide, with the sequence corresponding to residues 470-492, to spectrin and the ability of the peptide to inhibit spectrin binding of protein 4.2 confirmed that these residues are crucial in mediating protein 4.2-spectrin interactions.
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PMID:Mapping of a spectrin-binding domain of human erythrocyte membrane protein 4.2. 1204 49

Ingestion of the mycotoxin Aflatoxin B1 (AFB1) by protein-undernourished Fischer F344 rats for twelve weeks resulted in significant (p < 0.05) increases in the proliferation of liver cells, reduced body weight and increased microsomal Ca2+-ATPase activity. Cyt. P450 content, gamma-Glutamyl Transferase (GGT) and Glutathione Transferase (GST) activities were unaffected. The ingestion of AFB, by normal rats had no effect on all the parameters investigated. It appears that the microsomal Ca2+-pumping ATPase of Protein-Undernourished (PU) Fischer F344 rats is more sensitive to the mycotoxin AFB1 than its counterpart in well-nourished rats. The use of PU rat as animal model for studies on AFB, toxicity, particularly the effect of AFB1 on the regulation of intracellular calcium ion concentration ([Ca2+]), is suggested.
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PMID:Consequence of aflatoxin B1 ingestion on the membrane-bound liver endoplasmic reticulum Ca2+-ATPase of protein-undernourished Fischer F344 rats. 1216 33

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