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)

Thromboxane receptor (TP) signaling results in a broad range of cellular responses including kinase activation and subsequent nuclear signaling events involved in cell transformation, proliferation, and cell survival. Proteins that may participate in the early signaling following receptor activation remain to be identified. We found that 14-3-3zeta is a novel protein interacting with TP intracellular loop 3 (i3) by yeast two-hybrid system. This interaction was further confirmed by GST pull-down and co-immunoprecipitation methods. Site-directed mutagenesis studies indicated that Pro-236 of the TP-i3 was involved in the binding to the 14-3-3zeta. Co-immunoprecipitation studies in the same cell lysate by TP antibody showed that TP binds not only with the 14-3-3zeta but also with the Raf-1. Our data also demonstrated that TP receptor activation induced by agonist rapidly recruited 14-3-3zeta and Raf-1 to form a complex with the TP on the plasma membrane. The significance of assembling this protein complex was examined by TP agonist-induced extracellular-signal-regulated kinase (ERK) phosphorylation in intact cells. TP agonist, I-BOP, induced ERK phosphorylation in HEK 293 cells expressing wild type TPalpha but significantly lower in those expressing TPalpha-P236V mutant. Attenuation of the expression of 14-3-3zeta by 14-3-3zeta siRNA decreased I-BOP-induced ERK phosphorylation indicating the involvement of the 14-3-3zeta in the signal transduction process. These results suggest that 14-3-3zeta may serve as a scaffold protein to form a protein complex consisting of TP, 14-3-3zeta, and Raf-1, and that this protein complex may be involved in the activation of ERK pathway following TP receptor activation.
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PMID:14-3-3zeta interacts with human thromboxane receptors and is involved in the agonist-induced activation of the extracellular-signal-regulated kinase. 1641 28

Emp, originally detected in erythroblastic islands, is expressed in numerous cell types and tissues suggesting a functionality not limited to hematopoiesis. To study the function of Emp in non-hematopoietic cells, an epitope-tagged recombinant human Emp was expressed in HEK cells. Preliminary studies revealed that Emp partitioned into both the nuclear and Triton X-100-insoluble cytoskeletal fractions in approximately a 4:1 ratio. In this study, we report investigations of Emp in the nucleus. Sequential extractions of interphase nuclei showed that recombinant Emp was present predominantly in the nuclear matrix. Immunofluorescence microscopy showed that Emp was present in typical nuclear speckles enriched with the spliceosome assembly factor SC35 and partially co-localized with actin staining. Coimmunoprecipitation and GST-pull-down assays confirmed the apparent close association of Emp with nuclear actin. During mitosis, Emp was detected at the mitotic spindle/spindle poles, as well as in the contractile ring during cytokinesis. These results suggest that Emp undergoes dynamic rearrangements within the nuclear architecture that are correlated with cell division.
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PMID:Emp is a component of the nuclear matrix of mammalian cells and undergoes dynamic rearrangements during cell division. 1651 Jan 20

A yeast two-hybrid screen, using the carboxyl tail of the human mu opioid receptor as bait and a human brain cDNA library as target, indicated that the carboxyl terminal portion of hlj1, a member of the human heat shock protein 40 family, interacts with the carboxyl tail of the human mu opioid receptor. To determine if direct in vitro binding occurs between these two proteins, we performed overlay experiments. Results from the overlay experiments showed that binding occurs between the His fusion protein of hlj1 and the GST fusion protein of the carboxyl tail of the human mu opioid receptor. In contrast, no binding with the His fusion protein of hlj1 occurred with GST alone or the GST fusion protein of the third cytoplasmic loop of the human mu opioid receptor. Results from co-immunoprecipitation studies, carried out in whole HEK cell lysates, confirmed in vivo binding between these two proteins. Immunofluorescent studies, using laser scanning confocal microscopy, showed significant co-localization between hlj1 and the human mu opioid receptor in the cell membrane. The function of this protein-protein interaction and its physiological relevance in animal and human brain is yet to be determined.
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PMID:A member of the heat shock protein 40 family, hlj1, binds to the carboxyl tail of the human mu opioid receptor. 1654 45

The mammalian sorting nexin (SNX) proteins are involved in the endocytosis and the sorting machinery of transmembrane proteins. Additionally to the family defining phox homology (PX) domain, SNX17 is the only member with a truncated FERM (4.1, ezrin, radixin, and moesin) domain and a unique C-terminal region (together designated as FC unit). By gel filtration and lipid overlay assays we show that SNX17 is a non-self-assembling and a PtdIns(3)P high class affinity protein. A SNX17 affinity to any other phosphoinositides was not detected. By yeast two-hybrid- and GST-trapping assays we identified KRIT1 (krev1 interaction trapped 1) as a new specific interaction partner of the FC unit of SNX17. KRIT1 binds SNX17 by its N-terminal region like the known interaction partner ICAP1alpha (integrin cytoplasmic domain-associated protein-1). The interaction was also detected in HEK 293 cells transiently expressing GFP-tagged KRIT1 and Xpress-tagged SNX17. KRIT1 mutations cause cerebral cavernous malformation (CCM1). Our finding suggests a SNX17 involvement in the indicated KRIT1 function in cell adhesion processes by integrin signaling.
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PMID:Sorting nexin 17, a non-self-assembling and a PtdIns(3)P high class affinity protein, interacts with the cerebral cavernous malformation related protein KRIT1. 1671 98

Recent work has highlighted a role for PDK1 in adaptive immunity, however its contribution to innate immunity has not been addressed. We have investigated the role of PKB and PDK1 in IL-1beta-induced NF-kappaB activation. Over-expression of either in HCT 116 and HEK 293T cells, effected a reproducible NF-kappaB activation. This was validated in a one-hybrid assay utilizing Gal4-RelA and Gal4-luciferase assay. N-tosyl phenylalanyl chloromethyl ketone (TPCK), wortmannin and Ly294002 inhibited IL-1beta-induced NF-kappaB activation in both systems indicating involvement of the PI3K axis in this response. p65 (Rel A) Ser536 phosphorylation was not affected by the PI3K inhibitors but was dose-dependently attenuated by TPCK. Evaluation of IKK-associated activity using GST-p65 substrate phosphorylation in immune complex assays, revealed that whilst TPCK attenuated this, neither of the PI3K inhibitors had any effect. Furthermore whilst TPCK inhibited IL-1beta-induced p65 DNA binding, this was not apparent with either of wortmannin or Ly294002. Similarly, over-expression of PDK1 but not PKB resulted in promotion of p65 DNA binding. Using a p65-S536A reporter construct, we found inhibition of only PDK1 over-expression-induced, but not PKB over-expression-induced NF-kappaB activation. This was supported using biochemical analysis in which immunoprecipitated IKKgamma from IL-1beta-activated cells was unable to phosphorylate a p65-S536A substrate, confirming this as the dominant IKK-dependent site. In further support of a dissociated response, we observed an attenuation of the Ser177/181 IKK phosphorylation by TPCK but not in response to PI3K inhibition. Our data reveals for the first time that PDK1 and PKB may differentially activate NF-kappaB, and that TPCK may subserve a useful anti-inflammatory function by inhibiting IKKbeta.
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PMID:Investigation of interleukin 1beta-mediated regulation of NF-kappaB activation in colonic cells reveals divergence between PKB and PDK-transduced events. 1713 79

Endosomal acidification and transport are essential functions in signal transduction. Recent data suggest that Wnt signaling requires intact endosomal transport machinery but the effects of endosomal acidification on Wnt signal transduction have not been evaluated. Here we report that bafilomycin, a specific inhibitor of the vacuolar proton ATPase that blocks endosomal acidification, inhibits canonical Wnt signal transduction initiated by Wnt ligand and partially inhibits signaling initiated by disheveled. Bafilomycin does not affect Tcf promoter activation by beta-catenin. These data indicate that endosomal acidification is necessary for Wnt signaling. To identify interactions between endosomal transport proteins and Wnt receptors, we performed a GST fusion protein pulldown experiment and identified a possible indirect interaction between the LRP6 intracellular domain and vacuolar protein sorting protein 35 (VPS35). We show that an N-terminal deletion mutant of VPS35 reduces canonical Wnt signaling in HEK-293 cells expressing exogenous Wnt-1. These data suggest that endosomal V-type ATPase activity and retromer trafficking proteins are functionally important in Wnt signal transduction.
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PMID:The vacuolar-ATPase inhibitor bafilomycin and mutant VPS35 inhibit canonical Wnt signaling. 1723 4

Phospholamban (PLN) is a key regulator of Ca(2+) homeostasis and contractility in the heart. Its regulatory effects are mediated through its interaction with the sarcoplasmic reticulum Ca(2+)-ATPase, (SERCA2a), resulting in alterations of its Ca(2+)-affinity. To identify additional proteins that may interact with PLN, we used the yeast-two-hybrid system to screen an adult human cardiac cDNA library. HS-1 associated protein X-1 (HAX-1) was identified as a PLN-binding partner. The minimal binding regions were mapped to amino acid residues 203-245 for HAX-1 and residues 16-22 for PLN. The interaction between the two proteins was confirmed using GST-HAX-1, bound to the glutathione-matrix, which specifically adsorbed native PLN from human or mouse cardiac homogenates, while in reciprocal binding studies, recombinant His-HAX-1 bound GST-PLN. Kinetic studies using surface plasmon resonance yielded a K(D) of approximately 1 muM as the binding affinity for the PLN/HAX-1 complex. Phosphorylation of PLN by cAMP-dependent protein kinase reduced binding to HAX-1, while increasing concentrations of Ca(2+) diminished the PLN/HAX-1 interaction in a dose-dependent manner. HAX-1 concentrated to mitochondria, but upon transient co-transfection of HEK 293 cells with PLN, HAX-1 redistributed and co-localized with PLN at the endoplasmic reticulum. Analysis of the anti-apoptotic function of HAX-1 revealed that the presence of PLN enhanced the HAX-1 protective effects from hypoxia/reoxygenation-induced cell death. These findings suggest a possible link between the Ca(2+) handling by the sarcoplasmic reticulum and cell survival mediated by the PLN/HAX-1 interaction.
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PMID:Phospholamban interacts with HAX-1, a mitochondrial protein with anti-apoptotic function. 1724 41

Islet beta-cell-specific ATP-sensitive K(+) (K(ATP)) channel openers thiadiazine dioxides induce islet rest to improve insulin secretion, but their molecular basis of action remains unclear. We reported that syntaxin-1A binds nucleotide binding folds of sulfonylurea receptor 1 (SUR1) in beta-cells to inhibit K(ATP) channels. As a strategy to elucidate the molecular mechanism of action of these K(ATP) channel openers, we explored the possibility that 6-chloro-3-(1-methylcyclobutyl)amino-4H-thieno[3,2-e]-1,2,4-thiadiazine 1,1-dioxide (NNC55-0462) might influence syntaxin-1A-SUR1 interactions or vice versa. Whole-cell and inside-out patch-clamp electrophysiology was used to examine the effects of glutathione S-transferase (GST)-syntaxin-1A dialysis or green fluorescence protein/syntaxin-1A cotransfection on NNC55-0462 actions. In vitro pull-down binding studies were used to examine NNC55-0462 influence on syntaxin-1A-SUR1 interactions. Dialysis of GST-syntaxin-1A into the cell cytoplasm reduced both potency and efficacy of extracellularly perfused NNC55-0462 in a HEK cell line stably expressing Kir6.2/SUR1 (BA8 cells) and in rat islet beta-cells. Moreover, inside-out membrane patches excised from BA8 cells showed that both GST-syntaxin-1A and its H3 domain inhibited K(ATP) channels previously activated by NNC55-0462. This action on K(ATP) channels is isoform-specific to syntaxin-1A because syntaxin-2 was without effect. Furthermore, the parent compound diazoxide showed similar sensitivity to GST-syntaxin-1A inhibition. NNC55-0462, however, did not influence syntaxin-1A-SUR1 binding interaction. Our results demonstrated that syntaxin-1A interactions with SUR1 at its cytoplasmic domains can modulate the actions of the K(ATP) channel openers NNC55-0462 and diazoxide on K(ATP) channels. The reduced levels of islet syntaxin-1A in diabetes would thus be expected to exert a positive influence on the therapeutic effects of this class of K(ATP) channel openers.
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PMID:The actions of a novel potent islet beta-cell specific ATP-sensitive K+ channel opener can be modulated by syntaxin-1A acting on sulfonylurea receptor 1. 1749 34

Polypeptide N-acetylgalactosaminyltransferase 14 (GalNAc-T14, EC 2.4.1.41) belongs to a large subfamily of glycosyltransferases residing in the Golgi apparatus. N-Acetylgalactosaminyltransferases (GalNAc-Tases) catalyze the first step in the O-glycosylation of mammalian proteins by transferring N-acetyl-D-galactosamine (GalNAc) to peptide substrates. Here, the cloning, expression, purification, and polyclonal antibody preparation of GalNAc-T14 were described. A full-length GalNAc-T14 cDNA was inserted in a prokaryotic expression plasmid pGEX-4T-1 at the EcoRI and XhoI restriction sites. pGEX-4T-T14 was highly expressed in Escherichia coli (E. coli) BL21(DE3) cells after induced by isopropyl-beta-D-thiogalactoside (IPTG). The expressed GST-GalNAc-T14 fusion protein was purified by GSTrap FF chromatography and then used as antigen to immunize rabbits. The obtained antiserum was precipitated by 50% saturated ammonium sulfate and then purified by DEAE-Sepharose FF chromatography. To confirm the activity and specificity of the GalNAc-T14 antibody, we constructed the plasmid pFLAG-GalNAc-T14 to transfect transiently HEK 293T cells. Transiently expressed FLAG-GalNAc-T14 was identified by Western blot analysis with GalNAc-T14 antibody and FLAG monoclonal antibody, respectively. The production of the polyclonal antibody against GalNAc-T14 provides a good tool for studying the biofunctions of GalNAc-T14.
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PMID:Prokaryotic expression, purification, and production of polyclonal antibody against human polypeptide N-acetylgalactosaminyltransferase 14. 1759 62

TRPCs function as cation channels in non-excitable cells. The N-terminal tails of all TRPCs contain an ankyrin-like repeat domain, one of the most common protein-protein interaction motifs. Using a yeast two-hybrid screening approach, we found that RNF24, a new membrane RING-H2 protein, interacted with the ankyrin-like repeat domain of TRPC6. GST pull-down and co-immunoprecipitation assays showed that RNF24 interacted with all TRPCs. Cell surface-labelling assays showed that the expression of TRPC6 at the surface of HEK 293T cells was greatly reduced when it was transiently co-transfected with RNF24. Confocal microscopy showed that TRPC3 and TRPC6 co-localized with RNF24 in a perinuclear compartment and that RNF24 co-localized with mannosidase II, a marker of the Golgi cisternae. Using a pulse-chase approach, we showed that RNF24 did not alter the maturation process of TRPC6. Moreover, in HEK 293T cells, RNF24 did not alter carbachol-induced Ca(2+) entry via endogenous channels or TRPC6. These results indicate that RNF24 interacts with TRPCs in the Golgi apparatus and affects TRPC intracellular trafficking without affecting their activity.
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PMID:RNF24, a new TRPC interacting protein, causes the intracellular retention of TRPC. 1785 Aug 65

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