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 beta spectrin genes each produce two alternate transcripts the longer of which has a approximately 210 amino acid C-terminal extension including a pleckstrin homology (PH) domain and also an uncharacterized membrane binding site. GST constructs including the entire or the N-terminal segment of the beta I sigma II spectrin PH domain bind to crude and extracted brain membranes, to protein free brain lipid and to vesicles containing phosphatidylinositol-4,5-bisphosphate. This PH domain also binds radiolabelled inositol-1,4,5-trisphosphate (IP3) and preincubation with IP3 inhibits binding to extracted brain membranes. We conclude that membrane binding of the beta I sigma II spectrin C-terminal region is by means of a direct interaction between the N-terminal region of the PH domain and membrane lipids and does not require membrane protein. The PH domain of the beta-adrenergic receptor kinase showed different binding properties in every assay employed, showing that different PH domains may have different membrane binding specificity.
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PMID:The association of the C-terminal region of beta I sigma II spectrin to brain membranes is mediated by a PH domain, does not require membrane proteins, and coincides with a inositol-1,4,5 triphosphate binding site. 750 42

The beta gamma subunits of heterotrimeric G proteins (G beta gamma) play a variety of roles in cellular signaling, one of which is membrane targeting of the beta-adrenergic receptor kinase (beta ARK). This is accomplished via a physical interaction of G beta gamma and a domain within the carboxyl terminus of beta ARK which overlaps with a pleckstrin homology (PH) domain. The PH domain of beta ARK not only binds G beta gamma but also interacts with phosphatidylinositol 4,5-bisphosphate (PIP2). Based on previous mapping of the G beta gamma binding region of beta ARK, and conserved residues within the PH domain, we have constructed a series of mutants in the carboxyl terminus of beta ARK in order to determine important residues involved in G beta gamma and PIP2 binding. To examine the effects of mutations on G beta gamma binding, we employed three different methodologies: direct G beta gamma binding to GST fusion proteins; the ability of GST fusion proteins to inhibit G beta gamma-mediated beta ARK translocation to rhodopsin-enriched rod outer segments; and the ability of mutant peptides expressed in cells to inhibit G beta gamma-mediated inositol phosphate accumulation. Direct PIP2 binding was also assessed on mutant GST fusion proteins. Ala residue insertion following Trp643 completely abolished the ability of beta ARK to bind G beta gamma, suggesting that a proper alpha-helical conformation is necessary for the G beta gamma.beta ARK interaction. In contrast, this insertional mutation had no effect on PIP2 binding. Both G beta gamma binding and PIP2 binding were abolished following Ala replacement of Trp643, suggesting that this conserved residue within the last subdomain of the PH domain is crucial for both interactions. Other mutations also produced differential effects on the physical interactions of the beta ARK carboxyl terminus with G beta gamma and PIP2. These results suggest that the last PH subdomain and its neighboring sequences within the carboxyl terminus of beta ARK, including Trp643, Leu647, and residues Lys663-Arg669, are critical for G beta gamma binding while Trp643 and residues Asp635-Glu639 are important for the PH domain to form the correct structure for binding to PIP2.
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PMID:Mutational analysis of the pleckstrin homology domain of the beta-adrenergic receptor kinase. Differential effects on G beta gamma and phosphatidylinositol 4,5-bisphosphate binding. 762 21

Pleckstrin homology (PH) domains are 90-110 amino acid regions of protein sequence homology that are found in a variety of proteins involved in signal transduction and growth control. We have previously reported that the PH domains of several proteins, including beta ARK1, PLC gamma, IRS-1, Ras-GRF, and Ras-GAP, expressed as glutathione S-transferase fusion proteins, can reversibly bind purified bovine brain G beta gamma subunits in vitro with varying affinity. To determine whether PH domain peptides would behave as antagonists of G beta gamma subunit-mediated signal transduction in intact cells, plasmid minigene constructs encoding these PH domains were prepared, which permit transient cellular expression of the peptides. Pertussis toxin-sensitive, G beta gamma subunit-mediated inositol phosphate (IP) production was significantly inhibited in COS-7 cells transiently coexpressing the alpha 2-C10 adrenergic receptor (AR) and each of the PH domain peptides. Pertussis toxin-insensitive, Gq alpha subunit-mediated IP production via coexpressed M1 muscarinic acetylcholine receptor (M1 AChR) was attenuated only by the PLC gamma PH domain peptide, suggesting that the inhibitory effect of most of the PH domain peptides was G beta gamma subunit-specific. Stimulation of the mitogen-activated protein (MAP) kinase pathway by Gi-coupled receptors in COS-7 cells has been reported to require activation of p21ras and to be independent of protein kinase C. Since several proteins involved in activation contain PH domains, the effect of PH domain peptide expression on alpha 2-C10 AR-mediated p21ras-GTP exchange and MAP kinase activation as well as direct G beta gamma subunit-mediated activation of MAP kinase was determined. In each assay, coexpression of the PH domain peptides resulted in significant inhibition. Increasing G beta gamma subunit expression surmounted PH domain peptide-mediated inhibition of MAP kinase activation. These data suggest that the PH domain peptides behave as specific antagonists of G beta gamma-mediated signaling in intact cells and that interactions between PH domains and G beta gamma subunits or structurally related proteins may play a role in the activation of mitogenic signaling pathways by G protein-coupled receptors.
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PMID:Effect of cellular expression of pleckstrin homology domains on Gi-coupled receptor signaling. 776 89

Ligand-induced activation of many receptors leads to dissociation of the alpha- and beta gamma-subunit complexes of heterotrimeric G proteins, both of which regulate a variety of effector molecules involved in cellular signaling processes. In one case, a cytosolic enzyme, the beta-adrenergic receptor kinase (beta ARK) binds to the dissociated, prenylated, membrane-anchored beta gamma-subunits of heterotrimeric G proteins (G beta gamma) and is thereby targeted to its membrane-bound receptor substrate. Quite recently, numerous proteins involved in cellular signal transduction have been shown to contain sequences homologous with a "domain" originally identified in the protein "pleckstrin" (pleckstrin homology domain; PH domain) and subsequently found in the G beta gamma interaction region of the beta ARK sequence. Here we demonstrate that glutathione S-transferase-fusion proteins, containing sequences encompassing the PH domain of nine proteins from this group, bind G beta gamma to varying extents. Binding of G beta gamma to these fusion proteins was documented either by a direct binding assay or by ability to block G beta gamma-mediated membrane translocation of beta ARK1. G beta gamma binding to these fusion proteins was inhibited by the alpha subunit of Go (Go alpha), indicating that the binding of G beta gamma to G alpha and the PH domain-containing fusion proteins is mutually exclusive. Studies with a series of truncated PH domains derived from the Ras-guanine-nucleotide-releasing factor indicate that the G beta gamma binding domain includes only the C-terminal portion of the PH domain and sequences just distal to this. Protein-protein interactions between G beta gamma and PH domain-containing proteins may play a significant role in cellular signaling analogous to that previously demonstrated for Src homology 2 and 3 domains.
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PMID:Binding of G protein beta gamma-subunits to pleckstrin homology domains. 814 1

Previously, we demonstrated that microinjection of phosphoinositide-specific phospholipase C gamma 1 (PLC gamma 1) and lipase-defective mutants of PLC gamma 1 induced G(0) growth arrested NIH 3T3 fibroblasts to enter S phase of the cell cycle. These experiments suggested that regions other than the catalytic domain of PLC gamma 1 may be responsible for inducing mitogenesis. To test other regions of PLC gamma 1 for DNA synthesis inducing activity, cDNA fragments encoding Src homology (SH) and pleckstrin homology (PH) domains were subcloned into the bacterial expression plasmid pGEX-2TK, and the GST fusion proteins were purified. The complete PLC gamma l SH domain peptide was found to induce DNA synthesis after microinjection into growth arrested fibroblasts. Peptides containing a single SH3 domain or two SH2 domains induced a partial response that was restored to full activity if they were co-injected. The PH domain peptide did not induce DNA synthesis. Thus, both SH3 and SH2 activity combine to give maximum DNA synthesis induction, demonstrating that non-catalytic structural domains of PLC gamma 1 have pronounced effects on mitogenic signaling pathways.
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PMID:PLC gamma 1 Src homology domain induces mitogenesis in quiescent NIH 3T3 fibroblasts. 863 67

Wiskott-Aldrich syndrome (WAS) and X-linked thrombocytopenia (XLT), caused by mutations of the WAS protein (WASP) gene, represent different phenotypes of the same disease. To demonstrate a phenotype/genotype correlation, we determined WASP gene mutations in 48 unrelated WAS families. Mutations included missense (20 families) and nonsense (eight) mutations located mostly in exons 1 to 4, and splice-site mutations (seven) and deletions and insertions (13) located preferentially in exons 7 to 11. Both genomic DNA and cDNA were sequenced and WASP expression was measured in cell lysates using peptide-specific rabbit anti-WASP antibodies. WASP was expressed in hematopoietic cell lines including bone marrow-derived CD34+ cells. Missense mutations located in exons 1 to 3 caused mild disease in all but one family and permitted WASP expression, although frequently at decreased concentration. Missense mutations affecting exon 4 were associated with classic WAS and, with one exception, barely detectable WASP. Nonsense mutations caused classic WAS and lack of protein. Insertions, deletions, and splice-site mutations resulted in classic WAS and absent, unstable, truncated, or multiply spliced protein. Using affinity precipitation, WASP was found to bind to Src SH3-containing proteins Fyn, Lck, PLC-gamma, and Grb2, and mutated WASP, if expressed, was able to bind to Fyn-glutathione S-transferase (GST) fusion protein. We conclude that missense mutations affecting the PH domain (exons 1 to 3) of WASP inhibit less important functions of the protein and result in a mild phenotype, and that missense mutations affecting exon 4 and complex mutations affecting the 3' portion of WASP interfere with crucial functions of the protein and cause classic WAS.
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PMID:Wiskott-Aldrich syndrome/X-linked thrombocytopenia: WASP gene mutations, protein expression, and phenotype. 932 35

Pleckstrin homology (PH) domains are discrete structural modules present in numerous proteins involved in signal transduction processes. In the case of the beta-adrenergic receptor kinase (betaARK), PH domain-mediated binding of two ligands, the betagamma subunits of heterotrimeric G proteins (Gbetagamma) and phosphatidylinositol 4,5-bisphosphate (PIP2), has been shown to be required for the kinase function. In this study, the ability of Gbetagamma and PIP2 to affect membrane localization of betaARK is used to define the ligand binding characteristics of the betaARK PH domain. The binding of these ligands to the PH domain of the intact kinase is shown to be cooperative, Gbetagamma increasing the affinity of the PH domain for PIP2. Notably, although PIP2-dependent membrane association of betaARK is observed at high concentrations of this lipid, in the absence of Gbetagamma, no receptor phosphorylation is observed. Peptides derived from the receptor intracellular loop inhibit the receptor phosphorylation without affecting the membrane translocation of the kinase complex, suggesting that betaARK activity does not necessarily correlate with the amount of betaARK associated with the membrane. These results point to a distinct role for each PH domain ligand in betaARK-mediated receptor phosphorylation. Strikingly, the ligand binding characteristics of the isolated betaARK PH domain fused to glutathione S-transferase are very different from those of the PH domain of the intact kinase. Thus, in contrast to the native protein, the isolated PH domain binds Gbetagamma and PIP2 independently and with no apparent cooperativity. That protein environment plays an important role in determining the ligand binding characteristics of a particular PH domain highlights the potential risks of inferring mechanisms from studies of isolated PH domains.
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PMID:Binding of multiple ligands to pleckstrin homology domain regulates membrane translocation and enzyme activity of beta-adrenergic receptor kinase. 939 5

There are several recently reported examples of inositol phospholipids binding to pleckstrin homology (PH) domains of proteins. The PH domain of SOS, a guanine nucleotide exchange factor for Ras, binds to phosphatidylinositol 4,5 bisphosphate (PtdIns4,5P2). We found that binding of PtdIns4,5P2 to 6-his-tagged recombinant mSOS in vitro inhibits the ability of SOS to catalyze the association of GTP on p21RAS. This inhibition was specific for PtdIns4,5P2: a number of other phosphatidylinositols and phosphatidylserine failed to inhibit Ras GTP-association. We confirmed that the specificity of binding of PtdIns's to recombinant GST-SOS-PH domain is the same as the specificity of PtdIns's for inhibition of SOS activity: namely, that only PtdIns4,5P2 binds significantly to the SOS-PH domain. In addition, the inhibition of Ras GTP-binding is not blocked by excess free inositols suggesting that SOS binds to PtdIns4,5P2 with higher affinity than it binds to free inositols. Addition of SOS-PH domain protein prevented the inhibition of SOS by PtdIns4,5P2 as did addition of the high affinity PtdIns4,5P2-binding drug neomycin. This confirmed that SOS inhibition is mediated by the SOS-PH domain binding to the inositol moiety of PtdIns4,5P2. Binding of Grb2 to SOS did not prevent the inhibition of SOS by PtdIns4,5P2 suggesting that there must be another mechanism for regulating this inhibition. These findings show that the phospholipid PtdIns4,5P2 can suppress the activity of an enzyme involved in signal transduction and suggest that this inhibitory effect must be relieved when SOS is activated.
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PMID:Inhibition of mSOS-activity by binding of phosphatidylinositol 4,5-P2 to the mSOS pleckstrin homology domain. 962 May 47

The dynamins are 100-kDa GTPases involved in the scission event required for formation of endocytotic vesicles. The two main described mammalian dynamins (dynamin-1 and dynamin-2) both contain a pleckstrin homology (PH) domain, which has been implicated in dynamin binding to (and activation by) acidic phospholipids, most notably phosphoinositides. We demonstrate that the PH domains of both dynamin isoforms require oligomerization for high affinity phosphoinositide binding. Strong phosphoinositide binding was detected only when the PH domains were dimerized by fusion to glutathione S-transferase, or via a single engineered intermolecular disulfide bond. Phosphoinositide binding specificities agreed reasonably with reported effects of different phospholipids on dynamin GTPase activity. Although they differ in their ability to inhibit rapid endocytosis in adrenal chromaffin cells, the dynamin-1 and dynamin-2 PH domains showed identical phosphoinositide binding specificities. Since oligomerization is required for binding of the dynamin PH domain to phosphoinositides, it follows that PH domain-mediated phosphoinositide binding will favor oligomerization of intact dynamin (which has an inherent tendency to self-associate). We propose that the dynamin PH domain thus mediates the observed cooperative binding of dynamin to membranes containing acidic phospholipids and promotes the self-assembly that is critical for both stimulation of its GTPase activity and its ability to achieve membrane scission.
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PMID:The pleckstrin homology domains of dynamin isoforms require oligomerization for high affinity phosphoinositide binding. 976 10

Myosin II was identified as a binding protein to the pleckstrin homology (PH) domain of protein kinase B (PKB) in CHO cell extract by using the glutathione S-transferase-fusion protein as a probe. When myosin II purified from rabbit skeletal muscle was employed, myosin II was shown to bind almost exclusively to the PH domain of PKB among the PH domain fusion proteins examined. The purified myosin II bound to the PH domain of PKB with a Kd value of 1.1 x 10(-7) M. Studies with a series of truncated molecules indicated that the whole structure of the PH domain is required for the binding of myosin II, and the binding to the PH domain was inhibited by phosphatidylinositol 4,5-bisphosphate. These results suggest that myosin II is a specific binding protein to the PH domain of particular proteins including PKB.
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PMID:Identification of myosin II as a binding protein to the PH domain of protein kinase B. 1008 74

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