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 quantitated the levels of mRNAs in bone marrow samples from patients with multiple myeloma of the mdr1 gene (responsible for the Multidrug Resistance phenotype) and for two of the glutathione S-transferase gene, GST-2 and GST-3 (which can also inactivate a wide variety of cytotoxic drugs) and examined the relationship between the levels of expression of these genes and response to subsequent chemotherapy. From a total of 47 patients, 37 were treated with chemotherapy with 34 evaluable for response. Twenty-nine of the patients treated had not received any treatment prior to the marrow sampling while eight had previously received chemotherapy. Patients who failed to respond to initial chemotherapy had significantly higher levels of mdr1 than patients who responded (P = 0.01). In the total myeloma patient data set, mRNA levels for mdr1 and GST-2 were significantly correlated (Spearman rank correlation coefficient (r) = 0.54, P = 0.0004) as were expression levels of GST-2 with GST-3 (r = 0.43, P = 0.017). GST-3 and mdr1 levels were more weekly associated (r = 0.16, P = 0.4). These data would suggest a significant relationship between failure of chemotherapy in multiple myeloma patients and increases in expression of the mdr1 gene together with other genes whose products will generate additional mechanisms of resistance to chemotherapeutic agents.
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PMID:Levels of expression of the mdr1 gene and glutathione S-transferase genes 2 and 3 and response to chemotherapy in multiple myeloma. 134 25

The glutathione S-transferases (GST) (glutathione transferase; EC 2.5.1.18) are a family of enzymes responsible for the metabolism of a broad range of xenobiotics and carcinogens. A cDNA clone containing the entire amino acid coding sequence of a human GST-2 subunit has been isolated using a lambda gt11 expression library. The complete nucleotide sequence and a partial restriction map are presented. The subunit is composed of 221 amino acids with a molecular weight of 25,425 before posttranslational modification. The deduced amino acid sequence is rich in lysine, which is consistent with the relatively high pI of GST-2. The human sequence shows considerable homology with the rat Ya and Yc GST sequences but little homology with the rat GSTp and Yb subunit sequences. Southern blots of restriction digests of human DNA indicate that there may be multiple GST-2 genes. In situ hybridization of the cloned cDNA to human chromosomes produces intense labeling only over band p12 on the short arm of chromosome 6 near the centromere. This indicates that the GST-2 gene(s) are located only at this site.
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PMID:Isolation of a cDNA clone and localization of human glutathione S-transferase 2 genes to chromosome band 6p12. 303 80

Several electrophoretically distinct glutathione S-transferase isozymes from different tissues have been purified and characterized. The data confirm the suggestion that GST-1, GST-2 and GST-3 are the products of separate genetic loci. An apparently muscle-specific isozyme termed GST-4 has been identified and shown to differ structurally from GST-1, GST-2 and GST-3. It is likely that GST-4 is the product of an additional gene locus. Two isozymes termed GST-5 and GST-6 were purified from brain. GST-5 has a different isoelectric point, but shares many structural features with GST-1. GST-5 may be a brain-specific post-translationally modified product of the GST-1 gene. GST-6 is an acidic isozyme found in many tissues. The data indicate that GST-6 is composed of two dissimilar subunits that do not cross-react with antiserum directed against GST-1, GST-2 or GST-3. These observations therefore suggest that GST-6 may have an independent genetic origin.
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PMID:Electrophoretic and immunological analysis of human glutathione S-transferase isozymes. 311 57

Human muscle specific glutathione S-transferase (RX: glutathione R-transferase, EC 2.5.1.18) (GST-4) and liver GST-1 have been purified and subjected to N-terminal sequence analysis. These two isozymes show close homology and only differ in 3 residues within the first 24. The N-terminal sequences of GST-1 and GST-4 differ significantly from those of GST-2 and GST-3. Although antiserum raised against native GST-1 did not cross-react with GST-4, cross-reactivity was obtained with antiserum raised against denatured GST-1. The homology between GST-1 and GST-4 indicates that they are both members of the mu evolutionary class.
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PMID:Human muscle glutathione S-transferase (GST-4) shows close homology to human liver GST-1. 328 12

We report that a major 23-kDa allergen from German cockroach (Blattella germanica) is a glutathione S-transferase (EC 2.5.1.18; GST). Natural B. germanica GST, purified from cockroach body extracts by glutathione affinity chromatography, and recombinant protein expressed in Escherichia coli using the pET21a vector, showed excellent IgE antibody binding activity. B. germanica GST caused positive immediate skin tests in cockroach-allergic patients using as little as 3 pg of recombinant protein. The NH2-terminal sequence of the natural protein and the deduced amino acid sequence from cDNA were identical except for one substitution (Phe9 --> Cys). Assignment of this protein to the GST superfamily was based on binding to glutathione and sequence identity (42-51%) to the GST-2 subfamily from insects, including Anopheles gambiae and Drosophila melanogaster. B. germanica GST contained 18 of the 26 invariable residues identified in mammalian GST by x-ray crystallography and exhibited enzymic activity against a GST substrate. Our results show that cockroach GST causes IgE antibody responses and is associated with asthma. The data strongly support the view that the immune response to GST plays an important role in allergic diseases.
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PMID:Induction of IgE antibody responses by glutathione S-transferase from the German cockroach (Blattella germanica). 925 18

Fourteen isoforms of glutathione S-transferase (GST) have been separated and purified from mullet (Mugil cephalus) liver by scaling up an automatic analytical method based on anionic exchange chromatography. The activity of each isoenzyme with several substrates was determined. Dimeric combinations of six subunits make up this heterogeneous isoenzyme population. Five of these were resolved by reverse phase chromatography; four of them, named a, b, c and d, were present in more than one isoform, had the same apparent molecular mass (25.2 kDa) by SDS-PAGE, and were immunochemically related to plaice GST-A and possibly to rat GST-5 but not to plaice GST-B or any other rat GST subunit; they would belong to the theta class. Subunit e was only present in isoenzyme I which was basic, had an apparent molecular mass of 23.4 kDa and would belong to the alpha class, since it was recognized by antibodies towards plaice GST-B and rat GST-1 and GST-8 and less intensely by anti-(rat)GST-2. Another subunit, named f, with 25.2 kDa apparent molecular mass that could not be distinguished by reverse phase chromatography, was detected immunochemically by positive reaction with antibodies to rat GST-1 and GST-2 in addition to reaction with anti-(plaice)GST-A. As suggested by these results we discuss the existence of genetic polymorphism, the differential expression and the evolutionary relationships of mullet GSTs.
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PMID:Purification and characterization of multiple glutathione transferase isoenzymes from grey mullet liver. 936 73

Clostridium botulinum type A hemagglutinin-positive progenitor toxin consists of three distinct components: neurotoxin (NTX), hemagglutinin (HA), and non-toxic non-HA (NTNH). The HA consists of four subcomponents designated HA1, 2, 3a and 3b. By employing purified toxin and GST-fusion proteins of each HA subcomponent, we found that the HA-positive progenitor toxin, GST-HA1 and GST-HA3b bind to human erythrocytes and microvilli of guinea pig upper small intestinal sections. The HA-positive progenitor toxin and GST-HA1 bind via galactose moieties, GST-HA3b binds via sialic acid moieties. GST-2 and GST-3a showed no detectable binding.
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PMID:Identification and characterization of functional subunits of Clostridium botulinum type A progenitor toxin involved in binding to intestinal microvilli and erythrocytes. 1067 34

The effects of oxidative insult on gene transcript levels in the filarial nematode Onchocerca volvulus were investigated using differential display RT-PCR. Oxidative stress was applied with the reagents paraquat, plumbagin and xanthine-xanthine oxidase. In all three cases, a cDNA fragment encoding a novel glutathione S-transferase (GST) resembling members of the theta-class was identified as upregulated (PQ29, PG112, XOD26). The subsequently isolated full-length cDNA harbors a 753-bp open reading frame encoding a GST with 268 amino acid residues and a predicted molecular mass of 31 kDa. This stress-responsive GST (Ov-GST-3) possesses only 14 and 21% sequence identity with the other O. volvulus GSTs (Ov-GST-1 and Ov-GST-2, respectively). Interestingly, Ov-GST-3 shares higher sequence identity with GSTs that are upregulated due to environmental stress. In order to confirm the specific upregulation of the Ov-GST-3 transcripts identified by differential display and to analyze the mRNA levels of the other Ov-GSTs (Ov-GST-1 and Ov-GST-2) under elevated stress conditions, a semi-quantitative polymerase chain reaction-enzyme-linked immunosorbent assay was performed. The Ov-GST-3 gene transcript level increased dramatically in response to xanthine-xanthine oxidase and to a lesser extent with paraquat and plumbagin. In contrast, Ov-GST-1 and Ov-GST-2 did not show any significant alterations in their steady-state mRNA levels in response to oxidative stress when examining the same mRNA samples. The present study clearly demonstrates that Ov-GST-3 is a critical enzyme in the defense against oxidative stress.
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PMID:Identification of a stress-responsive Onchocerca volvulus glutathione S-transferase (Ov-GST-3) by RT-PCR differential display. 1096 Jan 69

Drosophila melanogaster glutathione S-transferase DmGSTS1-1 (earlier designated as GST-2) is related to sigma class GSTs and was previously described as an indirect flight muscle-associated protein with no known catalytic properties. We now report that DmGSTS1-1 isolated from Drosophila or expressed in Escherichia coli is essentially inactive toward the commonly used synthetic substrate 1-chloro-2,4-dinitrobenzene (CDNB), but has relatively high glutathione-conjugating activity for 4-hydroxynonenal (4-HNE), an electrophilic aldehyde derived from lipid peroxidation. 4-HNE is thought to have signaling functions and, at higher concentrations, has been shown to be cytotoxic and involved in the etiology of various degenerative diseases. Drosophila strains carrying P-element insertions in the GstS1 gene have a reduced capacity for glutathione conjugation of 4-HNE. In flies with both, one, or none of the GstS1 alleles disrupted by P-element insertion, there is a linear correlation between DmGSTS1-1 protein content and 4-HNE-conjugating activity. This correlation indicates that in adult Drosophila 70 +/- 6% of the capacity to conjugate 4-HNE is attributable to DmGSTS1-1. The high abundance of DmGSTS1-1 (approximately 2% of the soluble protein in adult flies) and its previously reported localization in tissues that are either highly aerobic (indirect flight muscle) or especially sensitive to oxidative damage (neuronal tissue) suggest that the enzyme may have a protective role against deleterious effects of oxidative stress. Such function in insects would be analogous to that carried out in mammals by specialized alpha class glutathione S-transferases (e.g. GSTA4-4). The independent emergence of 4-HNE-conjugating activity in more than one branch of the glutathione S-transferase superfamily suggests that 4-HNE catabolism may be essential for aerobic life.
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PMID:Catalytic function of Drosophila melanogaster glutathione S-transferase DmGSTS1-1 (GST-2) in conjugation of lipid peroxidation end products. 1135 8

We have isolated three novel organic anion transporter cDNAs designated rat GST-1 (gonad-specific transporter), rat GST-2, and human GST, expressed at high levels in the testis. Rat GST-1, GST-2, and human GST consist of 748, 702, and 719 amino acids, respectively, and all molecules possess the 12 predicted transmembrane domains, which is a common structure of organic anion transporters. Northern blot analyses and in situ hybridization revealed that both of the rat molecules are highly expressed in the testis, especially in Sertoli cells, spermatogonia, and Leydig cells. Weak signals are also detected in the epididymis and ovary in adult rat. The exclusive expression of human GST mRNA in the testis was confirmed by RT-PCR. The pharmacological experiments of Xenopus laevis oocytes injected with the respective rat GST-1- and GST-2-cRNAs revealed that both rat GST-1 and GST-2 transport taurocholic acid, dehydroepiandrosterone sulfate, and T4 with Michaelis-Menten kinetics (taurocholic acid, Km = 8.9 and 2.5 microm, dehydroepiandrosterone sulfate, Km = 25.5 and 21.microm, and T4, Km = 6.4 and 5.8 for rat GST-1 and GST-2, respectively). T3 was also transported by rat GST-1 and GST-2. These data suggest that rat GST-1 and GST-2 might be one of the molecular entities responsible for transporting dehydroepiandrosterone sulfate and thyroid hormones involved in the regulation of sex steroid transportation and spermatogenesis in the gonad.
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PMID:Identification and characterization of novel rat and human gonad-specific organic anion transporters. 1267 6


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