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)

Activation of TGF-beta superfamily receptors leads to phosphorylation of Smad proteins which function as transcription factors to regulate gene expression. Previous studies have indicated that Smad5, together with Smad1 and Smad8, participates in signaling downstream of BMP receptors. To characterize the DNA-binding characteristics of Smad5, we used the GST-Smad5 N-terminal fusion protein to select for random oligonucleotide sequences that were able to binds the protein. As a result, we found that Smad5 is able to bind a consensus sequence TGTGC. We further used the Smad7 promoter sequence that contains a Smad-binding element (SBE), GTCTAGAC to determine how mutations in each nucleotide in the SBE affects the binding with Smad5, compared with the binding with Smad1, Smad2, Smad3, Smad4, and Smad8. Interestingly, Smad5, but not Smad1 and Smad8, was able to bind the SBE, at a level similar to the binding by Smad3 and Smad4. However, mutations at the SBE had different effect on the binding with Smad5, compared to that with Smad3 and Smad4. These studies suggest that even though Smad5 falls into the same subfamily with Smad1 and Smad8 in mediating the signaling by BMP receptors, it has an unique DNA-binding property that is similar to Smad3, which specifically transduces signaling for TGF-beta and activin receptors.
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PMID:Characterization of the DNA-binding property of Smad5. 1152 22

2,3,7,8-Tetrachlorodibenzo- p-dioxin (TCDD), a ubiquitous environmental pollutant, elicits a variety of toxicities and is a well-known carcinogen. TCDD alters the expression of many genes including CYP1A1/2, CYP1B1, glutathione S-transferase Ya, aldehyde-3-dehydrogenase, NAD(P)H:quinone oxidoreductase, transforming growth factor (TGF)-alpha and TGF-beta. The present study was aimed at characterization of TCDD to induce plasminogen activator inhibitor-1 (PAI-1) in mouse hepatoma cell lines. A Hepa1c1c7 wild-type cell [H1(wt)], an aryl hydrocarbon receptor (AhR)-deficient mutant [H1(AhR(-))] and an AhR nuclear translocator (Arnt)-deficient mutant [H1(Arnt(-))] were used for this study. TCDD induced PAI-1 in H1(wt) cells, but not in H1(AhR(-)) and H1(Arnt(-)) mutants, indicating a functional role of the AhR-Arnt complex in this effect. Cycloheximide (CHX) treatment resulted in increased PAI-1 mRNA induction, indicating that this response to TCDD is a direct effect on transcription and not a secondary effect mediated by other TCDD-induced proteins. Transfection with PAI-1 promoter led to increased PAI-1 promoter activity in H1(wt) cells treated with TCDD, but no such effect occurred in H1(AhR(-)) or H1(Arnt(-)) cells, implying involvement of the AhR and Arnt. In addition, alpha-naphthoflavone and phenanthroline, two AhR antagonists, each blocked the enhancing effect of TCDD on PAI-1 promoter-coupled luciferase activity in H1(wt) cells. PAI-1 promoter deletion analysis indicated that TCDD-induced PAI-1 transcription was distinctly different from TGF-beta-dependent PAI-1 transcription, particularly in the region between -161 to +73. In summary, TCDD induced the PAI-1 gene directly via an AhR- and Arnt-dependent mechanism, which was distinctly different from TGF-beta-driven PAI-1 transcription.
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PMID:2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) induces plasminogen activator inhibitor-1 through an aryl hydrocarbon receptor-mediated pathway in mouse hepatoma cell lines. 1211 Oct 5

Signal transduction pathways induced by cytokines can modulate the level of HIV-1 gene transcription and replication in a variety of cells including those from the central nervous system. Here, we investigated the effect of TGFbeta-1 signaling the factors, including Smads, on transcription of the viral LTR in human astrocytic cells. Ectopic expression of Smad-3 increased activity of the viral promoter, while its partner protein, Smad-4, caused a slight decrease in viral gene transcription. Further, Smad-4 was able to suppress transcriptional activation of the LTR by Smad-3 as well as by C/EBPbeta, another activator of LTR transcription in these cells. Results from promoter deletion experiments identified the C/EBP-binding site, which is positioned between nucleotides -114 and -102 as one of the targets for Smad-mediated regulation of the LTR. Band-shift studies showed inhibition of C/EBP binding to its target DNA in protein extract from cells overexpressing Smad-3 and Smad-4. Results from GST pull-down assay and combined immunoprecipitation/Western blot of protein extracts from human astrocytes verified the association of Smad-3 and Smad-4 with C/EBPbeta, suggesting that interaction of C/EBPbeta with Smad-3 and Smad-4 may have a negative impact upon C/EBPbeta-mediated activation of the LTR. Interestingly, Smad-4 showed no inhibitory effect on viral gene transcription in cells expressing Tat protein. However, in the presence of Smad-3, expression of Smad-4 exerted a negative effect on Tat-mediated activation of the LTR promoter. These observations pointed to the functional interplay between viral and cellular proteins in modulating LTR transcription.
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PMID:Interaction between TGFbeta signaling proteins and C/EBP controls basal and Tat-mediated transcription of HIV-1 LTR in astrocytes. 1220 26

The integrins alpha(v)beta(1), alpha(v)beta(5), alpha(v)beta(6) and alpha(v)beta(8) have all recently been shown to interact with the RGD motif of the latency-associated peptide (LAPbeta(1)) of transforming growth factor beta(1) (TGFbeta(1)), with binding to alpha(v)beta(6) and alpha(v)beta(8) leading to TGFbeta(1) activation. Previously it has been suggested that the remaining alpha(v) integrin, alpha(v)beta(3,) does not interact with LAPbeta(1). However, here we show clearly that alpha(v)beta(3) does indeed interact with the LAPbeta(1) RGD motif. This interaction is similar to other alpha(v)beta(3) ligands in terms of the cations required for adhesion, the concentrations of LAPbeta(1) required for binding and the ability of a small-molecule inhibitor of alpha(v)beta(3), SB223245, to block the interaction. Using glutathione S-transferase fusion proteins we have mapped a minimal integrin-binding loop in LAPbeta(1) and then used this approach to probe the integrin-binding properties of the equivalent loops in LAPbeta(2) and LAPbeta(3). We show that the RGD motif of LAPbeta(3) also interacts with alpha(v)beta(3), in addition to alpha(v)beta(6), alpha(v)beta(1) and alpha(v)beta(5), whereas the corresponding loop in LAPbeta(2) does not interact with these integrins. These observations therefore correct a previously reported inaccuracy in the literature. Furthermore, they are important as they link alpha(v)beta(3) and TGFbeta, which may have implications in cancer and a number of inflammatory and fibrotic diseases where expression of both proteins has been documented.
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PMID:The integrin alphavbeta3 is a receptor for the latency-associated peptides of transforming growth factors beta1 and beta3. 1235 97

alpha(2)-Macroglobulin (alpha(2)M) binds transforming growth factor-beta1 (TGF-beta1) and TGF-beta2, forcing these growth factors into a state of latency. The mechanism by which this occurs remains unclear. In this paper, we demonstrate that peptides, derived from the structure of human alpha(2)M (amino acids 714-729), bind directly to TGF-beta1 and block the binding of TGF-beta1 to the type I and II TGF-beta receptors. The alpha(2)M-derived peptides are notable for hydrophobic tripeptide sequences (WIW or VVV) and acidic residues (Glu(714) and Asp(719) in the mature alpha(2)M subunit), which may function analogously to the structural elements that mediate TGF-beta-binding in the type II receptor. Mutating Glu(714) and Asp(719) in the alpha(2)M-peptide-GST fusion protein, FP3, which contains the putative growth factor-binding site, significantly decreased the binding affinity of FP3 for TGF-beta1. The alpha(2)M-derived peptides, which bind TGF-beta1, inhibited the interaction of TGF-beta1 with its receptors in fetal bovine heart endothelial cells. The same peptides also inhibited the activity of TGF-beta1 in endothelial cell proliferation assays. These results demonstrate that alpha(2)M-derived peptides target the receptor-binding sequence in TGF-beta.
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PMID:Growth factor-binding sequence in human alpha2-macroglobulin targets the receptor-binding site in transforming growth factor-beta. 1275 14

In Ewing's sarcoma family tumors, the ets transcription factor gene FLI1 is rearranged with one EWS allele resulting in coexpression of germline EWS and chimeric EWS-FLI1 proteins. Here, we investigated the potential of germline EWS, FLI1 and EWS-FLI1 to oligomerize. In two functional in vivo tests, fluorescence resonance energy transfer (FRET) and the mammalian two-hybrid (MTH) assay, self-association of EWS and EWS-FLI1, but not of FLI1 was detected. In addition, interaction of EWS-FLI1 with EWS and FLI1 was observed. GST pull-down assays and immunoprecipitation experiments largely confirmed these results. The EWS N-terminal domain present in both EWS and EWS-FLI1 was found to contribute to homotypic and heterotypic interactions of these proteins. However, in the context of germline EWS, the presence of the whole or part of the C-terminal RNA-binding domain greatly supported the self-association potential of the protein. Involvement of an RNA component in EWS oligomerization was confirmed by sensitivity of the corresponding GST pull-down assay to RNaseA treatment. In contrast, EWS-FLI1 was able to self-associate and also bind to FLI1 via its C-terminal domain, which comprises the FLI1 DNA-binding motif. Accordingly, the EWS-FLI1 interaction was not disrupted by RNaseA treatment. Despite its potential to oligomerize, EWS-FLI1 bound to a tandem ets-binding site of the TGFbeta type II receptor promoter as a monomer. Therefore, the functional consequences of homo- and hetero-oligomerization of EWS and EWS-FLI1 proteins remain to be elucidated.
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PMID:Homotypic and heterotypic interactions of EWS, FLI1 and their oncogenic fusion protein. 1453 27

Ontogenesis of the mammalian orofacial region is controlled by numerous developmental signals, including those initiated by the transforming growth factors beta (TGFbetas). Targeted deletion of the genes encoding several of the TGFbetas in mice has been shown to result in clefts of the secondary palate. Members of the TGFbeta family of growth factors utilize intracellular Smads as signal transducers. Smads 2 and 3 are transcriptional regulators that bind DNA through their conserved MH1 domains and activate/inhibit transcription of TGFbeta-responsive genes through their MH2 domains. Using a yeast two-hybrid screen of a cDNA expression library constructed from fetal murine orofacial tissue, we have identified three types of collagens (types I, III, and V) that are capable of binding to the MH2 domain of Smad 3. These interactions were confirmed by glutathione S-transferase (GST) pull-down assays in which the MH2 domain of Smad 3 fused to GST interacted strongly with in vitro translated, 35S-labeled collagen types I, III, and V. Each collagen also bound to the MH2 domains of Smads 4 and 7 and, to a lesser extent, full-length Smads 1, 2, 3, and 4. Binding of Smads to collagen is a novel observation. Moreover, TGFbeta is a potent regulator of collagen synthesis and turnover during mammalian orofacial development. These data thus suggest an important means of feedback regulation of the TGFbeta signaling cascade.
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PMID:Interaction of Smads with collagen types I, III, and V. 1455 31

The breast cancer-associated T2A10 clone was originally isolated from a cDNA library enriched for tumour messenger ribonucleic acids. Our survey of 125 microarrayed primary tumour tissues using affinity purified polyclonal antibodies has revealed that corresponding protein is overexpressed in invasive breast cancer and is weakly expressed in kidney and prostate tumours. Now known as RNF11, the gene encodes a RING-H2 domain and a PY motif, both of which mediate protein-protein interactions. In particular, the PPPPY sequence of RNF11 PY motif is identical to that of Smad7, which has been shown to bind to WW domains of Smurf2, an E3 ubiquitin ligase that mediates the ubiquitination and degradation of the TGFbeta receptor complex. Using various mutants of RNF11 in GST pulldown and immunoprecipitation assays, we found that RNF11 interacts with Smurf2 through the PY motif, leading to ubiquitination of both proteins. Smurf2 plays an active role in the repression of TGFbeta signalling, and our data indicate that overexpression of RNF11, through its interaction with Smurf2, can restore TGFbeta responsiveness in transfected cells.
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PMID:The RING-H2 protein RNF11 is overexpressed in breast cancer and is a target of Smurf2 E3 ligase. 1456 29

The TGFbetas, a family of secreted polypeptide growth factors, are critical regulators of mammalian orofacial development. The importance of the TGFbetas in development of the orofacial region in mice is underscored by the resulting orofacial clefts in mice with targeted deletion of either TGFbeta2 or TGFbeta3 and most recently, a conditional knockout of the type II TGFbeta receptor (TbetaRII) gene. The TGFbetas signal via binding to specific cell surface receptors which, in turn, activates translocation of the nucleocytoplasmic Smad transcriptional regulators. Smads 2 and 3 are TGFbeta-specific transcriptional regulators that bind DNA through their conserved MH1 domains and activate or inhibit transcription of TGFbeta-responsive genes through their MH2 domains. To search for novel Smad binding proteins expressed in developing murine orofacial tissue, a yeast two-hybrid assay was utilized to screen a cDNA expression library constructed from fetal murine orofacial tissue. Several novel Smad binding proteins were identified. These include a putative zinc finger protein (ZNF198), peroxisomal biogenesis factor 6 (Pex6), eucaryotic translation initiation factor 4E nuclear import factor 1 (4-ET), and splicing factor 3b subunit 2 (SF3b2). Results of the yeast two-hybrid screen were verified by GST pull-down assays which confirmed the interaction of these proteins with the MH2 domain of Smad 3, and also indicated interaction of these proteins with additional Smad family members. The identification of these proteins as Smad binding partners allows exploration of new mechanisms whereby TGFbeta signaling may be regulated, and reveals additional potential interactions with other signaling pathways.
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PMID:Identification of novel Smad binding proteins. 1465 98

FSH is critical for normal reproductive function in both males and females. Activin, a member of the TGFbeta family of growth factors, is an important regulator of FSH expression, but little is known about the molecular mechanisms through which it acts. We used transient transfections into the immortalized gonadotrope cell line LbetaT2 to identify three regions (at -973/-962, -167, and -134) of the ovine FSH beta-subunit gene that are required for full activin response. All three regions contain homology to consensus binding sites for Smad proteins, the intracellular mediators of TGFbeta family signaling. Mutation of the distal site reduces activin responsiveness, whereas mutation of either proximal site profoundly disrupts activin regulation of the FSHbeta gene. These sites specifically bind LbetaT2 nuclear proteins in EMSAs, and the -973/-962 site binds Smad4 protein. Interestingly, the protein complex binding to the -134 site contains Smad4 in association with the homeodomain proteins Pbx1 and Prep1. Using glutathione S-transferase interaction assays, we demonstrate that Pbx1 and Prep1 interact with Smads 2 and 3 as well. The two proximal activin response elements are well conserved across species, and Pbx1 and Prep1 proteins bind to the mouse gene in vivo. Furthermore, mutation of either proximal site abrogates activin responsiveness of a mouse FSHbeta reporter gene as well, confirming their functional conservation. Our studies provide a basis for understanding activin regulation of FSHbeta gene expression and identify Pbx1 and Prep1 as Smad partners and novel mediators of activin action.
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PMID:Activin regulation of the follicle-stimulating hormone beta-subunit gene involves Smads and the TALE homeodomain proteins Pbx1 and Prep1. 1476 53

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