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)

Hepatic levels of GSH and Phase II detoxication enzymes were compared to biochemical and histological indices of hepatic damage in 4- to 76-week-old nontransgenic mice and their transgenic littermates that overexpress the hepatitis B virus large envelope protein. The mice were fed a low-sucrose AIN-76A diet ad libitum. Hepatic-specific activities of quinone reductase (QR) and glutathione S-transferase (GST) were increased 2- to 10-fold beginning at 12 weeks of age in transgenic mice and correlated with increases in serum alanine aminotransferase (ALT) (r = 0.84 and 0.59, respectively). Quantitative histological analysis demonstrated that apoptosis was the predominant feature in 4- to 12-week-old transgenic mice, whereas necrosis and inflammation predominated at later time points. Surprisingly, 3-fold elevations in ALT were observed beginning at 52 weeks of age in nontransgenic mice, and hepatic-specific activities of QR and GST were also modestly increased in elderly nontransgenic animals. In contrast to transgenic mice, apoptosis was not a prominent feature. The strongest histological correlates to ALT in 4- to 76-week-old nontransgenic mice were necrosis and inflammation (r > 0.96), which in turn may have been evoked by hepatic fat accumulation. Profiles of specific GST isoforms were quantitated chromatographically and identified by sequencing tryptic digests. The Ya1 subunit of alpha-class GST was markedly increased from undetectable levels in transgenic mice, while more modest increases were observed in nontransgenic mice more than 1 year old. Fivefold elevations of the Yb1 subunit, a constitutively expressed mu-class GST, were found in transgenic mice older than 4 weeks of age, while 2-fold increases were observed in nontransgenic animals that were more than 1 year old. These studies demonstrate that selected increases in Phase II detoxication enzymes are a stereotyped response to chronic hepatitis that is strikingly reminiscent of the treatment of mice with anticarcinogenic enzyme inducers.
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PMID:Elevations of hepatic quinone reductase, glutathione, and alpha- and mu-class glutathione S-transferase isoforms in mice with chronic hepatitis: a compensatory response to injury. 866 Jun 89

Infection by human and animal hepadnaviruses displays remarkable host and tissue tropism. The infection cycle probably initiates with binding of the pre-S domain of viral envelope protein to surface receptors present on the hepatocyte. Three types of neutralizing monoclonal antibodies against duck hepatitis B virus (DHBV) have their binding sites clustered within residues 83 to 107 of the pre-S protein, suggesting that this region may constitute a major receptor binding site. A 170- or 180-kDa duck protein (p170 or gp180) which binds DHBV particles through this part of the pre-S sequence has been identified recently. Although the p170 binding protein is host (duck) specific, its distribution is not restricted to DHBV-infectible tissues. Using the pre-S protein fused to glutathione S-transferase and immobilized on Sepharose beads, we have now identified an additional binding protein with a size of 120 kDa (p120). p120 expression is restricted to the liver, kidney, and pancreas, the three major organs of DHBV replication. While optimal p170 binding requires an intact pre-S protein, binding to p120 occurs much more efficiently with a few N- or C-terminally truncated forms. The p120 binding site was mapped to residues 98 to 102 of the pre-S region, which overlaps with a cluster of known virus-neutralizing epitopes. Site-directed mutagenesis revealed residues 100 to 102 (Phe-Arg-Arg) as the critical p120 contact site; nonconservative substitution in any of the three positions abolished p120 binding. Double mutations at positions 100 to 102 markedly reduced DHBV infectivity in cell culture. Short pre-S peptides covering the clustered neutralizing epitopes (also p170 and p120 binding sites) reduced DHBV infectivity in primary duck hepatocyte cultures. Thus, p120 represents a candidate component of the DHBV receptor complex.
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PMID:Characterization of a 120-Kilodalton pre-S-binding protein as a candidate duck hepatitis B virus receptor. 870 25

The objective of this work is to examine the possible modulation of carcinogen metabolism (activation by cytochrome P450s and detoxification by conjugation via glutathione S-transferases [GST]) in relation to hepatitis B virus (HBV)-associated liver injury. In HBV transgenic mouse lineage 107.5, the hepatitis B surface antigen (HBsAg) is expressed at noncytopathic concentrations but after injection of an HBsAg-specific, major histocompatibility complex (MHC) class I restricted cytotoxic T-lymphocyte (CTL) clone, the mice develop a severe acute necroinflammatory liver disease that reaches maximum severity within 3 days and gradually subsides during the next 2 to 3 weeks. In this model, using immunohistochemical analysis, we observed an increase of P450s (CYP1A and 2A5), both involved in aflatoxin B1, metabolism, but minor changes or no changes for others (2B, 2C, 2E, 3A). There was a fivefold decrease in the total liver P450 microsomal content 3 days' post-CTL injection with the result that the relative proportion of CYP2A5 and 1A compared with other P450s is increased. Individual microsomal P450 enzyme contents estimated by Western blotting; Northern blot analysis of liver CYP messenger RNA (mRNA) levels as well as in vitro metabolism of specific substrates for different P450 isoenzymes were consistent with the immunohistochemical data. Immunohistochemical staining with antibodies to cytosolic pi class GST was increased 1 and 3 days postinjection followed by a progressive decrease at later time points (the same phenomenon was observed to a lesser extent for GST alpha). The activity of hepatic cytosols toward substrates specific for different subclasses of GST (mu, pi, alpha) showed that while GST mu was not changed in the CTL-injected HBV transgenic mice, GST pi and, to a lesser extent, alpha were increased as compared with controls. These results suggest that liver cell injury induced by a process of acute fulminant-like hepatitis can lead to the induction of some carcinogen metabolizing enzymes notably, Cyp 1A, 2A5 and GST pi in the mouse.
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PMID:Differential induction of carcinogen metabolizing enzymes in a transgenic mouse model of fulminant hepatitis. 878 38

Recently we identified human liver endonexin II (EII) as a specific hepatitis B surface antigen (HBsAg) binding protein. To investigate whether EII is also able to interact with the HBsAg envelope of the hepatitis delta virus (H delta V), immunoprecipitation experiments were performed. H delta V particles could be co-precipitated by polyclonal rabbit anti-EII, but not by rabbit anti-glutathiontransferase (GST pi) antibodies from an H delta V-enriched fraction containing EII or GST pi. These findings suggest that H delta V particles were co-precipitated by anti-EII as a consequence of the binding between HBsAg present in the H delta V envelope and EII. Furthermore, binding of H delta V particles to human hepatocytes could be inhibited by incubation of the liver cells with rabbit anti-EII IgG or the H delta V particles with anti-idiotypic (anti-HBsAg) antibodies, developed spontaneously in rabbits immunized with EII. These findings support the assumption that small HBsAg present in the H delta V envelope is important for the attachment to the hepatocytes and that EII plays an important role in this process.
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PMID:Hepatitis delta virus attaches to human hepatocytes via human liver endonexin II, a specific HBsAg binding protein. 879 May 57

Hepatitis C virus (HCV) produces chronic persistent liver infection in 1-2% of the U.S. population and is the leading cause of end stage liver disease in patients presenting for liver transplantation at our center. Efforts to cure persistent HCV infection are frequently unsuccessful, so the development of a HCV vaccine is a high priority. HCV envelope proteins are hypervariable so production of a recombinant surface antigen vaccine such as is available for hepatitis B is not likely to confer widespread, high level protective immunity. As the most highly conserved structural protein in the HCV genome, the core protein is one reasonable target for vaccine production. Presented here are data on the manufacture of recombinant core protein containing partial carboxy terminus deletions in an effort to increase the efficiency of core expression. The maltose binding protein (MBP) and glutathione S-transferase (GST) protein prokaryotic expression systems were used to study two different constructs, expressing the first 140 and 163 amino acids of the core region. Deletion of the 23 amino acids (aa) from aa141-163 led to a marked increase in the efficiency of protein production from < 1 to 3-4 mg/liter for both systems studied. Protein purification was accomplished using affinity chromatography (MBP) or inclusion body isolation (GST) as determined by SDS-PAGE gels and immunotransblot with HCV core protein-specific monoclonal antibody. Finally, the immune response to recombinant protein was assessed in BALB/c mice using a MBP HCV core fusion protein and an ELISA developed using GST HCV core protein as a target. In all mice of this strain, serum anti-HCV core antibody titer increased to 10(-4), two logs above background, following immunization in conjunction with Freund's complete adjuvant. These results represent an encouraging first step toward production of a core protein vaccine. Recombinant core protein is a useful tool to study the immune response to core protein and may be useful to further study the epidemiology and biology of the HCV virus.
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PMID:High efficiency prokaryotic expression and purification of a portion of the hepatitis C core protein and analysis of the immune response to recombinant protein in BALB/c mice. 882 96

Hepatitis B virus X protein (HBx) transactivates viral and cellular genes through a wide variety of cis-elements. However, the mechanism is still obscure. Our finding that HBx directly interacts with RNA polymerase II subunit 5 (RPB5), a common subunit of RNA polymerases, implies that HBx directly modulates the function of RNA polymerase (Cheong, J. H., Yi, M., Lin, Y., and Murakami, S. (1995) EMBO J. 14, 142-150). In this context, we examined the possibility that HBx and RPB5 interact with other general transcription factors. HBx and RPB5 specifically bound to transcription factor IIB (TFIIB) in vitro, both of which were detected by either far-Western blotting or the glutathione S-transferase-resin pull-down assay. Delineation of the binding regions of these three proteins revealed that HBx, RPB5, and TFIIB each has two binding regions for the other two proteins. Co-immunoprecipitation using HepG2 cell lysates that express HBx demonstrated trimeric interaction in vivo. Some HBx substitution mutants, which had severely impaired transacting activity, exhibited reduced binding affinity with either TFIIB or RPB5 in a mutually exclusive manner, suggesting that HBx transactivation requires the interactions of both RPB5 and TFIIB. These results indicated that HBx is a novel virus modulator that facilitates transcriptional initiation by stabilizing the association between RNA polymerase and TFIIB through communication with RPB5 and TFIIB.
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PMID:Hepatitis B virus X protein is a transcriptional modulator that communicates with transcription factor IIB and the RNA polymerase II subunit 5. 905 8

Hepatitis B virus (HBV) and aflatoxin B1 represent the main risk factors for the development of hepatocellular carcinoma (HCC) in areas endemic for liver cancer. The glutathione S-transferases (GSTs) are a family of Phase II detoxification enzymes that catalyze the conjugation of a wide variety of endogenous and exogenous toxins, including aflatoxin B1, with glutathione. This study characterizes the GST isoenzyme composition (alpha, mu, and pi) of both HBV-infected normal hepatic tissues and HCCs. Analysis of matched pairs of hepatic tissue (normal and tumor) from 32 HCC patients indicated that total GST activity was significantly higher in normal tissues than in tumor tissues, although the percentage of samples expressing GST alpha and pi was equivalent. GST mu was detected by Western blot in the normal tissue from 87.5% of the subjects possessing the GST M1 gene but only 28.6% of the corresponding tumor tissues. The GST activity of normal tissue from GST M1 null patients was significantly decreased as compared to that of subjects possessing the GST M1 gene (264.6 and 422.2 nmol/min/mg, respectively; P = 0.005). GST pi appeared to be overexpressed in the normal tissue of GST M1 null patients, a potential compensatory effect. Patients positive for HBV DNA had significantly lower GST activity than those who were HBV negative (302.1 versus 450.0 nmol/min/mg, respectively; P = 0.02). These results suggest that cellular protection within the human liver is compromised by HBV infection and further decreased during hepatocellular tumorigenesis.
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PMID:Glutathione S-transferase expression in hepatitis B virus-associated human hepatocellular carcinogenesis. 920 86

A truncated variant of the hepatitis B virus X gene (HBx) was cloned into the fusion expression vector of pGEX-3X (Pharmacia), resulting in a GST-HBx fusion gene construction (pGEX-3XXBF). This plasmid was transformed into and expressed by the Escherichia coli strain DH5. More than 80% of the expressed fusion protein was found in the insoluble fraction (inclusion body) of the cell lysate. The fusion protein was selectively extracted from the inclusion bodies with 8 M urea at pH 6.5, and it was refolded by diluting 3-fold with deionized distilled water at 4 degrees C. The in vitro cleavage of the refolded fusion protein by factor Xa at about 2-3 mg ml-1 in the presence of 2.66 M urea at pH 6.5 was complete. The final steps of purification involved precipitation of the cleaved proteins with ammonium sulphate, solubilization in guanidine hydrochloride and separation on a Superdex 75 FPLC column. With this approach, following an inclusion body strategy and a beneficial in vitro refolding, a predominantly hydrophobic and highly disulphide-bonded protein was produced in preparative scale for subsequent diagnostic use.
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PMID:An alternative purification protocol for producing hepatitis B virus X antigen on a preparative scale in Escherichia coli. 930 71

Transactivation of viral and host genes expression by hepatitis B virus X protein (HBx) is believed to be involved in hepatocarcinogenesis. The interaction of HBx with the tumor suppressor p53 and its inhibitory effect on p53 functions have been reported recently. However, the question of whether p53 is directly involved in HBx transactivation has not yet been addressed. In this study, we delineated the interaction sites of HBx and p53 using far-Western blotting and glutathione S-transferase-resin pull-down assays. The results indicate that the HBx-binding sites are located within the oligomerization and specific DNA-binding domains of p53 and that the p53-binding site was confined to a small region in the HBx transactivation domain. Mutual interference of the transactivations by HBx and p53 was detected by CAT assays in a transient transfection system. Strikingly, transactivation by HBx was observed in the p53-negative cells, Saos-2 and Hep3B, indicating that the transactivation and the p53-inhibiting functions of HBx are mutually interfering but distinct.
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PMID:The transactivation and p53-interacting functions of hepatitis B virus X protein are mutually interfering but distinct. 937 15

We have reported previously that the hepatitis B virus oncoprotein, HBx, can bind to the C terminus of p53 and inhibit several critical p53-mediated cellular processes, including DNA sequence-specific binding, transcriptional transactivation, and apoptosis. Recognizing the importance of p53-mediated apoptosis for maintaining homeostasis and preventing neoplastic transformation, here we further examine the physical interaction between HBx and p53 as well as the functional consequences of this association. In vitro binding studies indicate that the ayw and adr viral subtypes of HBx bind similar amounts of glutathione S-transferase-p53 with the distal C terminus of HBx (from residues 111 to 154) being critical for this interaction. Using a microinjection technique, we show that this same C-terminal region of HBx is necessary for sequestering p53 in the cytoplasm and abrogating p53-mediated apoptosis. The transcriptional transactivation domain of HBx also maps to its C terminus; however, a comparison of the ability of full-length and truncated HBx protein to abrogate p53-induced apoptosis versus transactivate simian virus 40- or human nitric oxide synthase-2 promoter-driven reporter constructs indicates that these two functional properties are distinct and thus may contribute to hepatocarcinogenesis differently. Collectively, our data indicate that the distal C-terminal domain of HBx, independent of its transactivation activity, complexes with p53 in the cytoplasm, partially preventing its nuclear entry and ability to induce apoptosis. These pathobiological effects of HBx may contribute to the early stages of hepatocellular carcinogenesis.
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PMID:Hepatitis B virus X protein and p53 tumor suppressor interactions in the modulation of apoptosis. 940 77


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