EC:2.5.1.18 - FACTA Search

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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)

Human c-Jun and c-Fos leucine zipper domains were examined for their ability to serve as autonomous dimerization domains as part of a heterologous protein construct. Schistosoma japonicum glutathione S-transferase (GST) was fused to recombinant Jun leucine zipper (rJunLZ) and Fos leucine zipper (rFosLZ) domains. SDS-PAGE 'snapshot' analyses based on disulphide linkage of monomers demonstrated the ability of rJunLZ to function as a dimerization motif in a foreign protein environment. Steric hindrance prevented formation of rJunLZ-GST::rFosLZ-GST heterodimers whereas rJunLZ-GST::rFosLZ and rJunLZ:: rFosLZGST formed readily. Furthermore, rJunLZGST generated homodimers suggesting fusion protein heterodimers interact differently to homodimers. Gel filtration chromatography confirmed that GST is a dimer in solution and that attachment of a leucine zipper domain allows further interactions to take place. Sedimentation equilibrium analyses showed that GST is a stable dimer (K(a) > 10(6) M(-1)) with no higher multimeric forms. rFosLZ-GST weakly associates beyond a dimer (K(a) approximately 4 x 10(4) M(-1)) and rJunLZ-GST associates indefinitely (K(a) approximately 4 x 10(5) M(-1)) [corrected], consistent with an isodesmic model of association. The interaction of these leucine zippers independently of GST association demonstrates their utility in the modification of proteins when multimer formation is desired.
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PMID:Multimer formation as a consequence of separate homodimerization domains: the human c-Jun leucine zipper is a transplantable dimerization module. 900 44

Exposure of cultured small cell lung cancer (SCLC) cells to UV radiation induces apoptosis. We observed that the UV sensitivity of a panel of SCLC lines and the activation of c-Jun NH2-terminal kinases (JNKs) by UV in the individual SCLC lines, assessed by binding and phosphorylation of glutathione S-transferase (GST)-c-Jun fusion proteins, ranged widely. In fact, increased JNK activity in this assay was closely correlated with decreased sensitivity to apoptosis following UV irradiation. Increased JNK activity was also detected in anti-JNK1 immune complexes collected from UV-irradiated SCLC cells, although the level of activity was similar among the various SCLC lines and correlated poorly with UV sensitivity. Immunoblot analysis of JNK polypeptides that bound to GST-c-Jun revealed at least two JNK polypeptides, one of which appeared only in extracts from UV-irradiated SCLC. To test the role of JNKs in UV-induced apoptosis, nonphosphorylatable mutants of JNK1 or JNK2 in which the phosphorylation site Thr-Pro-Tyr is changed to Ala-Pro-Phe (JNK-APF) and are predicted to behave as competitive inhibitors were stably expressed in SCLC. Expression of JNK1-APF or JNK2-APF significantly reduced UV-stimulated JNK activity. However, JNK1-APF markedly increased the resistance of the cells to UV-induced apoptosis, while JNK2-APF did not influence SCLC sensitivity to UV. The findings suggest that UV-stimulated JNK1 activation promotes UV-induced SCLC apoptosis, while a JNK isoform that is variably activated among the SCLC lines may signal a UV-protective response. We hypothesize that integration of distinct JNK activities dictates the relative responsiveness of SCLC to UV and ionizing radiation.
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PMID:c-Jun NH2-terminal kinase regulation of the apoptotic response of small cell lung cancer cells to ultraviolet radiation. 909 56

Bone marrow samples from 33 patients affected by MM and MGUS, and 8 patients not affected by lymphoproliferative diseases were studied for expression of c-Jun (a component of the transcription factor AP-1) and glutathione-S-transferase pi (GST-pi) using immunocytochemical methods. A high and frequent expression of these two proteins was found both in MM and MGUS patients (31/33 patients positive for c-Jun and 29/33 patients positive for GST-pi) and in controls not affected by monoclonal gammopathy (7/8 patients positive for both c-Jun and GST-pi). No statistically significant correlation was found between c-Jun- and GST-pi-positive plasma cells. The expression of these two proteins was not related to clinical or laboratory data. Our results seem to confirm a possible role of the transcriptional complex AP-1 in activating GST-pi promoter in human plasma cells.
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PMID:c-Jun and GST-pi expression in human plasma cells. 910 87

The expression of glutathione S-transferase (GST)-pi and four oncogene products, c-Jun, c-Fos, c-H-Ras, and c-Myc, in human squamous cell carcinomas of the head and neck was investigated immunohistochemically before and after radiation therapy, to examine whether these oncogene products might be involved in GST-pi expression, and also to examine the relationship between their expression and therapeutic response. Clinical response to radiation was evaluated in terms of both tumor regression and relapse over two-year follow-up periods. The overall positive rates in 83 carcinoma specimens before therapy were 60.2% for GST-pi and 28.9-51.8% for the individual oncogene products, the positive rates for the oncogene products being higher in GST-pi-positive than in GST-pi-negative cancers. c-Jun was most highly correlated with GST-pi expression. Following radiation, the expression of GST-pi and the oncogene products was altered in about a half of 30 patients. Eleven of the 18 patients who exhibited prior positivity for GST-pi showed negative conversion, while 4 of the 12 patients with prior negativity demonstrated positive conversion. In most cases, changes in c-Jun staining coincided with those in GST-pi. Regarding clinical response to radiation therapy, the positive rates for GST-pi and c-Jun before radiation were higher in the residual cancer or relapse cases than in the group showing complete response without relapse. Examination of 26 patients with laryngeal cancer revealed that relapse occurred more frequently in cases exhibiting positive reactions for GST-pi, c-Jun, or c-H-Ras. These results suggest a direct link between c-Jun and GST-pi in head and neck cancers before and after radiation. Although GST-pi and the oncogene products can be influenced by radiation, GST-pi and c-H-Ras expression may be a risk factor for relapse of laryngeal cancer.
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PMID:Correlated expression of glutathione S-transferase-pi and c-Jun or other oncogene products in human squamous cell carcinomas of the head and neck: relevance to relapse after radiation therapy. 911 42

In order to study the role played by known and novel genes in growth control and neoplasia, we here compare the pEX and pGEX bacterial expression systems for recombinant oncoprotein production and for generation of specific antisera. The results of five pEX (MS2-c-Fos, MS2-Fra-1, MS2-JunD, bgal-c-Jun and bgal-JunB) and two pGEX [glutathione S-transferase (GSH)-JE/MCP-1 and GST-JunD] fusion-protein productions are presented. Higher (15-43-fold) yields are obtained with the pEX system, but only the pGEX system allows separation of the protein of interest from the fusion moiety by digestion with specific proteases. The degree of fusion-protein purification, as assessed by SDS/PAGE, is similar for both systems. Proteins produced by both systems were successfully used in the generation of specific antisera. The choice between the pEX and pGEX systems is dependent upon the specific recombinant protein produced.
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PMID:Use of pEX and pGEX bacterial heterologous protein expression systems for recombinant oncoprotein production and antisera generation. 919 74

In exploring the possible mechanisms of androgen independence of prostate-specific antigen (PSA) gene expression, we investigated the effect of elevating AP-1 by both 12-O-tetradecanoylphorbol 13-acetate (TPA) treatment and transfection of the c-Jun expression vector in LNCaP cells. Transcription of PSA is initiated when ligand-activated androgen receptor (AR) binds to a region in the PSA promoter that contains an androgen-responsive element (ARE). It was found that TPA inhibited androgen-induced PSA gene expression by a mechanism that did not alter nuclear levels of AR protein. Overexpression of AP-1 (jun and fos proteins) also inhibited androgen-induced PSA promoter activity. These observations were apparently related to the disruption of AR.ARE complexes as demonstrated by the results of electrophoretic mobility shift assays. Specifically, c-Jun inhibited the formation of AR.ARE complexes and conversely that AR-glutathione S-transferase proteins inhibited the formation of c-Jun.TPA-responsive element (TRE) complexes. Consistent with the inhibitory effect of both proteins, anti-c-Jun antibody blocked the inhibition of AR.ARE complex formation by c-Jun. A similar, but less marked, effect was obtained when anti-AR antibody was used to prevent AR inhibition of c-Jun.TRE complex formation. These findings together with results obtained from co-immunoprecipitation experiments strongly suggest that mutual repression of DNA binding activity is due to direct interaction between the two proteins and that the degree of repression may be determined by the ratio of AR to c-Jun. The mechanism of repression studied in mutant analysis experiments yielded evidence of an interaction between the DNA- and ligand-binding domains of AR and the leucine zipper region of c-Jun. Thus, the AR is similar to other nuclear receptors in its ability to interact with AP-1. This association provides a link between AP-1 and AR signal transduction pathways and may play a role in the regulation of the androgen-responsive PSA gene.
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PMID:Androgenic induction of prostate-specific antigen gene is repressed by protein-protein interaction between the androgen receptor and AP-1/c-Jun in the human prostate cancer cell line LNCaP. 921 94

Stress-activated protein kinases (SAPK; also known as JNK for c-Jun N-terminal kinase) phosphorylate Ser63 and Ser73 in the amino-terminus of the c-Jun protein and potentiate its transcriptional activity. We have analysed phosphorylation of GST fusion proteins containing the c-Jun N-terminal domain by lysates of Daudi human B lymphoblastoid cells stimulated with medium or anti-IgM. Crosslinking membrane IgM (mIgM) results in an increase in phosphorylation of GST-c-Jun (5-89) in an antibody dose-dependent manner. The kinase activity specifically phosphorylates the c-Jun N-terminal domain since it does not phosphorylate GST or GST-JunB. The activity preferentially phosphorylates the substrate that contains the sites for in vivo phosphorylation by SAPK/JNK and requires the delta domain of c-Jun, which is also required for SAPK/JNK activity. However, the c-Jun N-terminal kinase activity induced by mIgM ligation is not precipitatable with anti-SAPK/JNK antibodies. In addition, unlike SAPK/JNKs, the mIgM-dependent c-Jun N-terminal kinase activity is not detectable in assays for renaturable kinase activity (in-gel assay) or in assays that test activities that bind to c-Jun (solid-phase assay). The increased phosphorylation of c-Jun N-terminal domain in response to mIgM ligation is unlikely to be due to mIgM-activated ERKs as it was not suppressed by a selective MEK inhibitor. Thus, the mIgM-induced activity is distinct from the known SAPK/JNKs and may represent a novel mechanism for c-Jun phosphorylation in response to mIgM engagement in human B cells.
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PMID:Ligation of membrane IgM stimulates a novel c-Jun amino-terminal domain kinase activity in Daudi human B cells. 929 74

Previously we have shown that ICR-27, a clone of glucocorticoid-resistant human leukemic T cells, showed rapid cell loss upon transient transfection with plasmids expressing certain fragments of the human glucocorticoid receptor lacking the ligand binding domain. An extreme example was the frameshift GR mutant 465*, mutated after amino acid 465. This generated a novel 21-amino acid "tail," beginning within the second zinc finger of the human glucocorticoid receptor DNA binding domain, a region required for ICR-27 cell death caused by hologlucocorticoid receptor plus hormone. The cell loss mediated by 465* was faster but quantitatively equivalent to that caused by hologlucocorticoid receptor plus hormone. We are therefore investigating the mechanism of action of 465*. We overexpressed 465* with or without a glutathione S-transferase tag fused to its N terminus and tested its ability to affect glucocorticoid response element (GRE)-driven reactions in vitro. Partially purified 465* showed little binding to a consensus GRE, caused virtually no stimulation of transcription from a GRE, and failed to inhibit GR-driven transcription. However, GST-465* "trapped" several proteins from ICR-27 cell extracts, including c-Jun; recombinant c-Jun also was bound in vitro. In co-transfection assays of CV-1 cells, 465* expression reduced phorbol ester (12-O-tetradecanoylphorbol-13-acetate) transcriptional activation from a promoter containing multiple AP-1 sites. Further studies proved the repressive activity of 465* was c-Jun-specific and not due to squelching artifacts. The data suggest that interaction of 465* with other proteins, such as c-Jun, might be responsible for its cell killing function.
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PMID:Protein-protein interactions are implied in glucocorticoid receptor mutant 465*-mediated cell death. 932 19

The effect of ultraviolet (UV) B irradiation on pi class glutathione transferase (GST-P) gene expression was examined in cultured rat keratinocytes. Immunoblotting demonstrated GST-P to be the major GST form in the cells, and it was significantly decreased following irradiation. Northern blot analysis revealed that the mRNA decreased to 10-25% of the initial value 24 h after irradiation at a dose of 40 mJ/cm2. No remarkable changes were observed at earlier time points. Hydrogen peroxide treatment enhanced GST-P mRNA expression, with a 70% increase at 250 microM concentration. Alterations in possible trans-acting factors were examined to clarify the mechanism of repression by UV irradiation. c-Jun mRNA was induced 3.5-fold at 4 h after irradiation, but by 24 h fell to a lower level than that observed initially. c-Fos mRNA was increased 10-fold at 1 h but was completely suppressed at 12 and 24 h. Thus, the changes of c-Jun and c-Fos mRNA differed from that of GST-P mRNA. The level of mRNA for silencer factor-B was decreased to less than 10% at 12 h. UV irradiation of cells transfected with the chloramphenicol acetyltransferase (CAT) reporter gene containing enhancer (GPE I) or silencer regions of the GST-P gene did not suppress CAT activity. Although basal expression of the GST-P gene was mainly dependent on GPE I, altered expression of c-jun, c-fos and other genes coding for factors possibly trans-acting on GPE I did not appear to be responsible for the decreased GST-P mRNA levels.
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PMID:Decrease in class pi glutathione transferase mRNA levels by ultraviolet irradiation of cultured rat keratinocytes. 943 81

3-methylcholanthrene (MC), a potent promutagen and procarcinogen, is also an inducer of mammalian CYPIAI (cytochrome P1-450) gene. The CYPIAI enzyme is responsible for the detoxification of MC and its oxidation into reactive epoxide intermediates. Through its epoxide metabolites, MC functions also as an inducer of drug-metabolizing enzyme glutathione S-transferase (GST) gene expression. Induction of murine GST Ya gene by MC and a variety of other chemical agents is mediated by a regulatory element composed of two adjacent AP-1-like sites, and activated by the Fos/Jun heterodimeric complex (AP-1). In cultured cells, MC causes the induction of AP-1 activity, which is the result of an increased expression of c-Fos and c-Jun proteins. The mechanisms involved in MC activation of c-fos and c-jun gene expression were examined in the present study. Evidence is presented that stimulation of c-fos transcription by MC involves a signal transduction pathway, which includes activation of the small G protein Ras, Raf-1 kinase, and the mitogen-activated protein (MAP) kinases, ERK1 and ERK2. Furthermore, we find that phorbol 12-myristate 13-acetate, which uses both protein kinase C and protein-tyrosine kinase activities to induce c-fos promoter, may share a common pathway with MC downstream of Ras. The signal transduction pathway induced by MC to stimulate c-jun promoter involves Ras activation and the JNK group of MAP-kinases.
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PMID:Signaling pathways in the induction of c-fos and c-jun proto-oncogenes by 3-methylcholanthrene. 963 28

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