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)

The C3H mouse liver h-protein is a cytoplasmic protein to which metabolites of carcinogenic polycyclic hydrocarbons bind covalently following i.p. injection. It has a number of physical properties similar to those of the glutathione S-transferases (EC 2.5.1.18). These properties include molecular weight (40,000), number of subunits (2), basic isoelectric point around 8.0, sedimentation coefficient (3.5S), and subcellular localization. In this communication, we have shown that glutathione S-transferase activities with 1,2-epoxy(3-p-nitrophenoxy)propane and benz[a]anthracene 5,6-oxide as substrates were separated from the h-protein on carboxymethylcellulose and isoelectrofocusing columns. The purification of the mouse h-protein as a [3H]-7,12-dimethylbenz[a]anthracene conjugate or as the free form is also described.
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PMID:Separation of glutathione S-transferase activities with epoxides from the mouse liver h-protein, a major polycyclic hydrocarbon-binding protein. 41 9

Elevations in intracellular calcium increase the adsorption of a cytoplasmic protein to human red blood cell membrane. This protein migrates on SDS polyacrylamide gels at 23,000 daltons and has been called band 8. The association of this protein with the membrane is increased in sickle cell anemia. This protein is extracted from the membrane with EGTA, a calcium chelator. Enzymatic and immunological studies identify band 8 as a glutathione S-transferase.
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PMID:Calcium-dependent association of glutathione S-transferase with the human erythrocyte membrane. 641 Oct 89

Ligandin, a ubiquitous multifunctional cytoplasmic protein which exhibits glutathione S-transferase, glutathione peroxidase and delta 5-3-ketosteroid isomerase activities and binds to cortisol metabolites, is present in relatively high concentrations in gonadal and adrenal tissue. In contrast to hepatic ligandin, little is known about the ontogeny of ligandin in steroid-synthesising tissues. We report here the intracellular concentrations of ligandin as well as the serum concentrations of testosterone and progesterone measured by radioimmunoassay at different stages of development in the rat. Ligandin levels in testis, ovary and adrenal tissue were relatively high soon after birth, decreased by day 9 and increased rapidly during puberty to reach adult levels. These changes appeared to be paralleled by changes in the circulating levels of testosterone and progesterone. In contrast, ligandin levels in non-steroidogenically active tissues, such as liver and kidney, were low at birth and rose progressively to reach adult levels. Whereas hepatic ligandin concentration could be increased at all stages of development by phenobarbital induction, no induction occurred in the endocrine tissues.
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PMID:Ligandin concentrations in the steroidogenic tissues of the rat during development. 648 51

Most of non-receptor-type protein-tyrosine kinases share common structures, such as N-terminal unique domains, Src homology region (SH)-2 domains, SH-3 domains and kinase domains. Although vast effort has brought some information about the in vivo roles of SH-2, -3 and kinase domains, little is still understood about the function of N-terminal unique domain. By utilizing the glutathione S-transferase (GST)-fusion system, we have investigated the role of N-terminal unique domain of the Tec protein-tyrosine kinase in a mouse IL-3-dependent myeloid cell line. We could reveal that the C-terminal half of the Tec N-terminal unique domain (NTec2 region) can bind to a set of tyrosine-phosphorylated cellular proteins in vitro in an IL-3-dependent manner. Surprisingly, p56/53Lyn constitutively binds to the NTec2 region. Among the NTec2-bound Lyn proteins, only the p56 form seems to be inducibly tyrosine-phosphorylated in response to IL-3. Binding domain of Lyn to the NTec2 region was localized to its SH-3 domain. Tec was also shown to make a stable complex with Lyn in vivo. This is the first report demonstrating the direct association between distinct cytoplasmic protein-tyrosine kinases, especially through N-terminal unique domain.
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PMID:Tec protein-tyrosine kinase directly associates with Lyn protein-tyrosine kinase through its N-terminal unique domain. 793 43

Tyrosine phosphorylation of multiple cellular proteins is a critical event in T cell receptor (TCR)-mediated activation. This pathway has also been implicated in cellular transformation in multiple systems. The viral oncogene v-cbl is the transforming gene of a murine retrovirus that induces pre-B cell lymphomas and myelogenous leukemias. The product of its cellular homolog, p120cbl, is a 120-kDa cytoplasmic protein that is non-transforming when overexpressed. Here we show that the 120-kDa protein tyrosine phosphorylated in Jurkat T cells upon TCR engagement is p120cbl. Following stimulation through the TCR, this tyrosine phosphorylation is rapid and reversible. Tyrosine-phosphorylated p120cbl binds to glutathione S-transferase fusion proteins generated from SH2 domains of the Fyn, Lck, and Blk protein tyrosine kinases, GTPase-activating protein and phospholipase C gamma. The p120cbl from unactivated and activated cells also binds to full-length glutathione S-transferase-Grb2 and the Grb2 N-terminal SH3 domain, but not to the Grb2 C-terminal SH3 domain. Additionally, p120cbl binds to SH3 domains of Fyn and Lck, but not Blk. These data expand our knowledge of protein tyrosine kinase signaling pathways in T cells by identifying a prominent tyrosine kinase substrate. This protein, the product of the cellular homolog of a transforming oncogene, can interact with several known signaling molecules.
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PMID:The protein product of the c-cbl protooncogene is the 120-kDa tyrosine-phosphorylated protein in Jurkat cells activated via the T cell antigen receptor. 808 87

Huntingtin is the protein product of the gene for Huntington's disease (HD) and carries a polyglutamine repeat that is expanded in HD (>36 units). Huntingtin-associated protein (HAP1) is a neuronal protein and binds to huntingtin in association with the polyglutamine repeat. Like huntingtin, HAP1 has been found to be a cytoplasmic protein associated with membranous organelles, suggesting the existence of a protein complex including HAP1, huntingtin, and other proteins. Using the yeast two-hybrid system, we found that HAP1 also binds to dynactin P150(Glued) (P150), an accessory protein for cytoplasmic dynein that participates in microtubule-dependent retrograde transport of membranous organelles. An in vitro binding assay showed that both huntingtin and P150 selectively bound to a glutathione transferase (GST)-HAP1 fusion protein. An immunoprecipitation assay demonstrated that P150 and huntingtin coprecipitated with HAP1 from rat brain cytosol. Western blot analysis revealed that HAP1 was enriched in rat brain microtubules and comigrated with P150 and huntingtin in sucrose gradients. Immunofluorescence showed that transfected HAP1 colocalized with P150 and huntingtin in human embryonic kidney (HEK) 293 cells. We propose that HAP1, P150, and huntingtin are present in a protein complex that may participate in dynein-dynactin-associated intracellular transport.
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PMID:Interaction of huntingtin-associated protein with dynactin P150Glued. 945 36

Mixed-lineage kinase 2 (MLK2) is a cytoplasmic protein kinase expressed at high levels in mammalian brain. The MLK2 structure is composed of a Src homology 3 (SH3) domain, two leucine zippers, a basic motif, a Cdc42/Rac interactive binding motif and a large C-terminal domain rich in proline, serine and threonine residues. To begin to define the role of MLK2 in mammalian brain, we used an MLK2-SH3 domain-glutathione S-transferase fusion protein (GST-MLK2-SH3) to isolate MLK2-binding proteins from rat brain extract. This analysis revealed that the major MLK2-SH3-domain-binding protein in rat brain is the GTPase dynamin. By using two different forms of the dynamin proline-rich domain as affinity ligands, the binding site for MLK2-SH3 was mapped to the C-terminal region of dynamin between residues 832 and 864. In GTPase assays, the addition of MLK2-SH3 stimulated the activity of purified dynamin I by 3-fold over the basal level, whereas the addition of a known dynamin activator, phosphatidylserine (PtdSer), stimulated a 6-fold increase. When MLK2-SH3 was added to the assay together with PtdSer, however, dynamin GTPase activity accelerated by more than 23-fold over basal level. An MLK2 mutant (MLK2-W59A-SH3), with alanine replacing a conserved tryptophan residue in the SH3 domain consensus motif, had no effect on dynamin activity, either alone or in the presence of PtdSer. In the same assay the SH3 domain from the regulatory subunit of phosphatidylinositol 3'-kinase stimulated a similar synergistic acceleration of dynamin GTPase activity in the presence of PtdSer. These results suggest that synergy between phospholipid and SH3 domain binding might be a general mechanism for the regulation of GTP hydrolysis by dynamin.
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PMID:Mixed-lineage kinase 2-SH3 domain binds dynamin and greatly enhances activation of GTPase by phospholipid. 974 20

The translationally controlled protein P23 was discovered by the early induction of its rate of synthesis after mitogenic stimulation of mouse fibroblasts. P23 is expressed in almost all mammalian tissues and it is highly conserved between animals, plants and yeast. Based on its amino acid sequence, P23 cannot be attributed to any known protein family, and its cellular function remains to be elucidated. Here, we present evidence that P23 has properties of a tubulin binding protein that associates with microtubules in a cell cycle-dependent manner. (1) P23 is a cytoplasmic protein that occurs in complexes of 100-150 kDa, and part of P23 can be immunoprecipitated from HeLa cell extracts with anti-tubulin antibodies. (2) In immunolocalisation experiments we find P23 associated with microtubules during G1, S, G2 and early M phase of the cell cycle. At metaphase, P23 is also bound to the mitotic spindle, and it is detached from the spindle during metaphase-anaphase transition. (3) A GST-P23 fusion protein interacts with alpha- and beta-tubulin, and recombinant P23 binds to taxol-stabilised microtubules in vitro. The tubulin binding domain of P23 was identified by mutational analysis; it shows similarity to part of the tubulin binding domain of the microtubule-associated protein MAP-1B. (4) Overexpression of P23 results in cell growth retardation and in alterations of cell morphology. Moreover, elevation of P23 levels leads to microtubule rearrangements and to an increase in microtubule mass and stability.
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PMID:The growth-related, translationally controlled protein P23 has properties of a tubulin binding protein and associates transiently with microtubules during the cell cycle. 1008 60

The chaperone function of the mammalian 70-kDa heat shock proteins Hsc70 and Hsp70 is modulated by physical interactions with four previously identified chaperone cofactors: Hsp40, BAG-1, the Hsc70-interacting protein Hip, and the Hsc70-Hsp90-organizing protein Hop. Hip and Hop interact with Hsc70 via a tetratricopeptide repeat domain. In a search for additional tetratricopeptide repeat-containing proteins, we have identified a novel 35-kDa cytoplasmic protein, carboxyl terminus of Hsc70-interacting protein (CHIP). CHIP is highly expressed in adult striated muscle in vivo and is expressed broadly in vitro in tissue culture. Hsc70 and Hsp70 were identified as potential interaction partners for this protein in a yeast two-hybrid screen. In vitro binding assays demonstrated direct interactions between CHIP and both Hsc70 and Hsp70, and complexes containing CHIP and Hsc70 were identified in immunoprecipitates of human skeletal muscle cells in vivo. Using glutathione S-transferase fusions, we found that CHIP interacted with the carboxy-terminal residues 540 to 650 of Hsc70, whereas Hsc70 interacted with the amino-terminal residues 1 to 197 (containing the tetratricopeptide domain and an adjacent charged domain) of CHIP. Recombinant CHIP inhibited Hsp40-stimulated ATPase activity of Hsc70 and Hsp70, suggesting that CHIP blocks the forward reaction of the Hsc70-Hsp70 substrate-binding cycle. Consistent with this observation, both luciferase refolding and substrate binding in the presence of Hsp40 and Hsp70 were inhibited by CHIP. Taken together, these results indicate that CHIP decreases net ATPase activity and reduces chaperone efficiency, and they implicate CHIP in the negative regulation of the forward reaction of the Hsc70-Hsp70 substrate-binding cycle.
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PMID:Identification of CHIP, a novel tetratricopeptide repeat-containing protein that interacts with heat shock proteins and negatively regulates chaperone functions. 1033 Jan 92

We describe the molecular cloning and characterization of a novel giant human cytoplasmic protein, trabeculin-alpha (M(r) = 614,000). Analysis of the deduced amino acid sequence reveals homologies with several putative functional domains, including a pair of alpha-actinin-like actin binding domains; regions of homology to plakins at either end of the giant polypeptide; 29 copies of a spectrin-like motif in the central region of the protein; two potential Ca(2+)-binding EF-hand motifs; and a Ser-rich region containing a repeated GSRX motif. With similarities to both plakins and spectrins, trabeculin-alpha appears to have evolved as a hybrid of these two families of proteins. The functionality of the actin binding domains located near the N terminus was confirmed with an F-actin binding assay using glutathione S-transferase fusion proteins comprising amino acids 9-486 of the deduced peptide. Northern and Western blotting and immunofluorescence studies suggest that trabeculin is ubiquitously expressed and is distributed throughout the cytoplasm, though the protein was found to be greatly up-regulated upon differentiation of myoblasts into myotubes. Finally, the presence of cDNAs similar to, yet distinct from, trabeculin-alpha in both human and mouse suggests that trabeculins may form a new subfamily of giant actin-binding/cytoskeletal cross-linking proteins.
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PMID:Molecular cloning and characterization of human trabeculin-alpha, a giant protein defining a new family of actin-binding proteins. 1055 37

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