Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The polymerase chain reaction was used to amplify protein tyrosine phosphatase (PTPase)-related cDNA from a template of total RNA isolated from human skeletal muscle. A novel PTPase, which we term PTP-PEST, was detected by this method. The polymerase chain reaction fragment was used to screen two different HeLa cell libraries to obtain full length cDNA clones. The cDNA predicts a protein of 510 amino acids, approximately 60 kDa, that does not contain an obvious signal sequence or transmembrane segment suggesting it is a nonreceptor type enzyme. The PTPase domain is located in the N-terminal portion of the molecule and displays approximately 35% identity to other members of this family of enzymes. The C-terminal segment is rich in Pro, Glu, Asp, Ser, and Thr residues, possessing features of PEST motifs which have previously been identified in proteins with very short intracellular half-lives. The protein was expressed in Escherichia coli as a fusion product with glutathione S-transferase. Intrinsic activity was demonstrated in vitro against a variety of phosphotyrosine-containing substrates including BIRK, the autophosphorylated cytoplasmic kinase domain of the insulin receptor beta subunit. It did not dephosphorylate phosphoseryl-phosphorylase a. PTP-PEST mRNA is broadly distributed in a variety of cell lines. Stimulation of human rhabdomyosarcoma A204 cells, a transformed muscle line, with insulin led to an approximately 4-fold induction of PTP-PEST mRNA within 36 h.
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PMID:Cloning and expression of PTP-PEST. A novel, human, nontransmembrane protein tyrosine phosphatase. 834 45

Podosomes are adhesion structures in osteoclasts and are structurally related to focal adhesions mediating cell motility during bone resorption. Here we show that gelsolin coprecipitates some of the focal adhesion-associated proteins such as c-Src, phosphoinositide 3-kinase (PI3K), p130(Cas), focal adhesion kinase, integrin alpha(v)beta(3), vinculin, talin, and paxillin. These proteins were inducibly tyrosine-phosphorylated in response to integrin activation by osteopontin. Previous studies have defined unique biochemical properties of gelsolin related to phosphatidylinositol 3,4,5-trisphosphate in osteoclast podosomes, and here we demonstrate phosphatidylinositol 3,4,5-trisphosphate/gelsolin function in mediating organization of the podosome signaling complex. Overlay and GST pull-down assays demonstrated strong phosphatidylinositol 3,4,5-trisphosphate-PI3K interactions based on the Src homology 2 domains of PI3K. Furthermore, lipid extraction of lysates from activated osteoclasts eliminated interaction between gelsolin, c-Src, PI3K, and focal adhesion kinase despite equal amounts of gelsolin in both the lipid-extracted and unextracted experiment. The cytoplasmic protein tyrosine phosphatase (PTP)-proline-glutamic acid-serine-threonine amino acid sequences (PEST) was also found to be associated with gelsolin in osteoclast podosomes and with stimulation of alpha(v)beta(3)-regulated phosphorylation of PTP-PEST. We conclude that gelsolin plays a key role in recruitment of signaling proteins to the plasma membrane through phospholipid-protein interactions and by regulation of their phosphorylation status through its association with PTP-PEST. Because both gelsolin deficiency and PI3K inhibition impair bone resorption, we conclude that phosphatidylinositol 3,4,5-trisphosphate-based protein interactions are critical for osteoclast function.
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PMID:Phosphatidylinositol 3,4,5-trisphosphate directs association of Src homology 2-containing signaling proteins with gelsolin. 1157 4

The receptor-like protein tyrosine phosphatase DEP1, also known as CD148, is expressed predominantly in epithelial cells, in a variety of tumor cell lines, and in lymphocytes. Expression of DEP1 is enhanced at high cell density, and this observation suggests that DEP1 may function in the regulation of cell adhesion and possibly contact inhibition of cell growth. In order to investigate the function of DEP1, substrate-trapping mutants of the phosphatase were used to identify potential substrates. GST-fusion proteins containing the DEP1 catalytic domain with a substrate-trapping D/A mutation were found to interact with p120(ctn), a component of adherens junctions. DEP1 also interacted with other members of the catenin gene family including beta-catenin and gamma-catenin. The interaction with p120(ctn) is likely to be direct, as the interaction occurs in K562 cells lacking functional adherens junctions and E-cadherin expression. Catalytic domains of the tyrosine phosphatases PTP-PEST, CD45, and PTPbeta did not interact with proteins of the catenin family to detectable levels, suggesting that the interaction of DEP1 with these proteins is specific. DEP1 expression was concentrated at sites of cell-cell contact in A549 cells. p120(ctn) was found to colocalize with these structures. Together these data suggest an important role for DEP-1 in the function of cell-cell contacts and adherens junctions.
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PMID:The transmembrane receptor protein tyrosine phosphatase DEP1 interacts with p120(ctn). 1237 Aug 29

PTP-PEST is a cytoplasmic protein-tyrosine phosphatase (PTP) implicated in the regulation of biological processes such as cell motility, cytokinesis, focal adhesion disassembly, and lymphocyte activation. Using a proteomics approach, filamin-A was identified as a novel interacting protein that bound to GST-PTP-PEST. This interaction was confirmed in vitro and in cells by coimmunoprecipitation. The site of filamin interaction on PTP-PEST was mapped to the fourth proline-rich region (Pro4). PTP-PEST has previously been implicated in the regulation of cytokinesis. In further support of this finding, expression of PTP-PEST in HeLa cells resulted in the formation of multinucleated cells. A PTP-PEST mutant lacking Pro4 and unable to bind filamin-A failed to induce the multinucleated phenotype. Further, depletion of filamin-A in HeLa cells was found to reduce the PTP-PEST-dependent multinucleation phenotype. Hence, we conclude that the interaction of PTP-PEST with filamin-A may function in the control of cytokinesis in mammalian cells.
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PMID:Identification of a filamin docking site on PTP-PEST. 1697 6

The activities of different kinases have been correlated to the phosphorylation of Wiscott-Aldrich syndrome protein (WASP) by studies in multiple cell systems. The purpose of this study was to elucidate the regulatory mechanisms involved in WASP phosphorylation and the resulting sealing ring formation in osteoclasts. The phosphorylation state of WASP and WASP-interacting proteins was determined in osteoclasts treated with osteopontin or expressing either constitutively active or kinase-defective Src by adenovirus-mediated delivery. In vitro kinase analysis of WASP immunoprecipitates exhibited phosphorylation of c-Src, PYK2, WASP, protein-tyrosine phosphatase (PTP)-PEST, and Pro-Ser-Thr phosphatase-interacting protein (PSTPIP). Phosphorylation of these proteins was increased in osteopontin-treated and constitutively active Src-expressing osteoclasts. Pulldown analysis with glutathione S-transferase-fused proline-rich regions of PTP-PEST revealed coprecipitation of WASP, PYK2, c-Src, and PSTPIP proteins with the N-terminal region (amino acids 294-497) of PTP-PEST. Similarly, interaction of the same signaling proteins, as well as PTP-PEST, was observed with glutathione S-transferase-fused proline-rich regions of WASP. Furthermore, osteopontin stimulation or constitutively active Src expression resulted in serine phosphorylation and inhibition of WASP-associated PTP-PEST. The inhibition of PTP-PEST was accompanied by an increase in tyrosine phosphorylation of WASP and other associated signaling proteins. Experiments with an inhibitor to phosphatase and small interference RNA to PTP-PEST confirmed the involvement of PTP-PEST in sealing ring formation and bone resorption. WASP, which is identified in the sealing ring of resorbing osteoclasts, also demonstrates colocalization with c-Src, PYK2, PSTPIP, and PTP-PEST in immunostaining analyses. Our findings suggest that both tyrosine kinase(s) and the tyrosine phosphatase PTP-PEST coordinate the formation of the sealing ring and thus the bone-resorbing function of osteoclasts.
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PMID:Phosphorylation of a Wiscott-Aldrich syndrome protein-associated signal complex is critical in osteoclast bone resorption. 1728 76