EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of beta 2-adrenergic receptors (beta 2ARs) to agonists causes a rapid desensitization of the receptor-stimulated adenylyl cyclase response. Phosphorylation of the beta 2AR by several distinct kinases plays an important role in this desensitization phenomenon. In this study, we have utilized purified hamster lung beta 2AR and stimulatory guanine nucleotide binding regulatory protein (Gs), reconstituted in phospholipid vesicles, to investigate the molecular properties of this desensitization response. Purified hamster beta 2AR was phosphorylated by cAMP-dependent protein kinase (PKA), protein kinase C (PKC), or beta AR kinase (beta ARK), and receptor function was determined by measuring the beta 2AR-agonist-promoted Gs-associated GTPase activity. At physiological concentrations of Mg2+ (less than 1 mM), receptor phosphorylation inhibited coupling to Gs by 60% (PKA), 40% (PKC), and 30% (beta ARK). The desensitizing effect of phosphorylation was, however, greatly diminished when assays were performed at concentrations of Mg2+ sufficient to promote receptor-independent activation of Gs (greater than 5 mM). Addition of retinal arrestin, the light transduction component involved in the attenuation of rhodopsin function, did not enhance the uncoupling effect of beta ARK phosphorylation of beta 2AR when assayed in the presence of 0.3 mM free Mg2+. At concentrations of Mg2+ ranging between 0.5 and 5.0 mM, however, significant potentiation of beta ARK-mediated desensitization was observed upon arrestin addition. At a free Mg2+ concentration of 5 mM, arrestin did not potentiate the inhibition of receptor function observed on PKA or PKC phosphorylation. These results suggest that distinct pathways of desensitization exist for the receptor phosphorylated either by PKA or PKC or alternatively by beta ARK.
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PMID:Desensitization of the isolated beta 2-adrenergic receptor by beta-adrenergic receptor kinase, cAMP-dependent protein kinase, and protein kinase C occurs via distinct molecular mechanisms. 134 86

The rap1/Krev-1 gene encodes a ras-related protein that suppresses transformation by ras oncogenes. We have purified an 88 kd GTPase activating protein (GAP), specific for the rap1/Krev-1 gene product, from bovine brain. Based on partial amino acid sequences obtained from this protein, a 3.3 kb cDNA was isolated from a human brain library. Expression of the cDNA in insect Sf9 cells resulted in high level production of an 85-95 kd rap1GAP that specifically stimulated the GTPase activity of p21rap1. The complete deduced amino acid sequence is not homologous to any known protein sequences, including GAPs specific for p21ras. Northern and Western blotting analysis indicate that rap1GAP is not ubiquitously expressed and appears most abundant in fetal tissues and certain tumor cell lines, particularly the Wilms' kidney tumor, SK-NEP-1, and the melanoma, SK-MEL-3, cell lines.
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PMID:Molecular cloning of a GTPase activating protein specific for the Krev-1 protein p21rap1. 190 17

Src homology regions 2 (SH2) and 3 (SH3) are noncatalytic domains that are conserved among several proteins implicated in the regulation of cell proliferation. Using bacterially expressed fusion proteins containing the SH2 domain of the abl tyrosine kinase, we have quantitated the binding of these domains to the activated epidermal growth factor (EGF) receptor (EGFR). A 35S-labeled abl SH2 fusion protein binds to the human EGFR immunoprecipitated from EGF-treated NIH3T3 cells that overexpress the receptor. This binding is totally dependent on the pretreatment of cells with EGF. The interaction is rapid, reaching 50% of maximum within 1 min, and attaining apparent equilibrium by 10 min. Dissociation of the complex is biphasic with a rapidly dissociating component (t1/2 of less than 1 min), as well as a slowly dissociable component. The 35S-labeled abl SH2 fusion protein specifically binds to the EGFR in a saturable manner and is differentially inhibited by unlabeled fusion proteins containing SH2 domains from phospholipase C, the p85 subunit of phosphatidylinositol-3 kinase, and the GTPase activation protein of ras. To identify residues critical for abl SH2-EGFR binding, six point mutants were constructed in the highly conserved FLVRES motif. Three mutants (V170L, E172Q, and E174Q) display binding affinities similar to that of wild type. However, three other mutants (R171K, S173C, and S175C) have greatly reduced affinity. Interestingly, the binding affinity to the EGFR determined by the in vitro assay directly correlates with the transforming ability of the corresponding v-abl constructs in vivo (Mayer, B. J., Jackson, P. K., Etten, R. A. V., and Baltimore, D. (1992) Mol. Cell. Biol. 12, 609-618). These data indicate that the Arg-171, Ser-173, and Ser-175 are critical for both transformation and abl SH2 domain binding to phosphotyrosine-containing proteins.
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PMID:Direct analysis of the binding of the abl Src homology 2 domain to the activated epidermal growth factor receptor. 767 9

A diverse array of molecules involved in signal transduction have recently been recognised as containing a new homology domain, the pleckstrin homology (PH) domain. These include kinases (both serine/threonine and tyrosine specific), all currently known mammalian phospholipase Cs, GTPases, GTPase-activating proteins, GTPase-exchange factors, "adapter" proteins, cytoskeletal proteins, and kinase substrates. This has sparked a new surge of research into elucidating its structure and function. The NMR solution structure of the PH domains of beta-spectrin and pleckstrin (the N-terminal domain) both display a core consisting of seven anti-parallel beta-sheet strands. The carboxy terminus is folded into a long alpha-helix. The molecule is electrostatically polarised and contains a pocket which may be involved in the binding of a ligand. The PH domains overall topological relatedness to the retinoid binding protein family of molecules would suggest a lipid ligand could bind to this pocket. The prime function of the PH domain still remains to be elucidated. However, it has been shown to be important in signal transduction, most probably by mediating protein-protein interactions. An extended PH domain of the beta-adrenergic receptor kinase (beta ARK), as well as that of several other molecules, can bind to beta gamma subunits of the heterotrimeric G-proteins. The possibility that the PH domain, which is found in so many signalling molecules, being generally involved in beta gamma binding is provocative of implicating these proteins in G-protein signal transduction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pleckstrin homology (PH) domains in signal transduction. 789 Aug 2

Epidermal growth factor (EGF) stimulates adenylyl cyclase in the heart via activation of the stimulatory GTP-binding protein Gs. Therefore, employing peptides corresponding to regions in the cytosolic domain of the EGF receptor, we have investigated the ability of sequences within the EGF receptor to activate Gs. A 13-aa peptide (EGFR-13) corresponding to the juxtamembrane region in the cytosolic domain of the EGF receptor stimulated GTP binding and GTPase activity of Gs. This peptide did not stimulate GTP binding to Gi but increased the GTPase activity of this protein. Additionally, phosphorylation of the protein kinase C site (threonine residue) within EGFR-13 decreased the ability of the peptide to stimulate Gs and increase GTPase activity of Gi. Further, in functional assays of Gs employing S49 cyc- cell membranes, EGFR-13 increased the ability of Gs to stimulate adenylyl cyclase; phospho-EGFR-13 and a 14-aa peptide corresponding to a sequence in the cytosolic domain of the EGF receptor did not alter the functional activity of Gs. Hence, the juxtamembrane region of the EGF receptor can activate Gs and, by stimulating GTPase activity of Gi, inactivates this latter G protein. Phosphorylation of the threonine residue within this region attenuates the activity of the peptide as a modulator of G-protein function.
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PMID:A region in the cytosolic domain of the epidermal growth factor receptor antithetically regulates the stimulatory and inhibitory guanine nucleotide-binding regulatory proteins of adenylyl cyclase. 789 52

The beta 2-adrenergic receptor (beta 2AR) can be constitutively activated by mutations in the third intracellular loop. Whereas the wild-type receptor exists predominantly in an inactive conformation (R) in the absence of agonist, the mutant receptor appears to spontaneously adopt an active conformation (R*). We now demonstrate that not only is the mutant beta 2AR constitutively active, it is also constitutively desensitized and down-regulated. To assess whether the mutant receptor can constitutively engage a known element of the cellular desensitization machinery, the receptor was purified and reconstituted into phospholipid vesicles. These preparations retained the essential properties of the constitutively active mutant receptor: agonist-independent activity [to stimulate guanine nucleotide-binding protein (Gs)-GTPase] and agonist-specific increase in binding affinity. Moreover, the purified mutant receptor, in the absence of agonist, was phosphorylated by recombinant beta AR-specific kinase (beta ARK) in a fashion comparable to the agonist-occupied wild-type receptor. Thus, the conformation of the mutated receptor is equivalent to the active conformation (R*), which stimulates Gs protein and is identical to the beta ARK substrate.
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PMID:A constitutively active mutant beta 2-adrenergic receptor is constitutively desensitized and phosphorylated. 790 40

The Src homology (SH) region 2 binds to phosphorylated tyrosine residues and SH3 domains may interact with cytoskeletal molecules and GTPase-activating proteins for Rho/Rac proteins (the small GTP-binding proteins related to Ras). The recently cloned Ash/Grb-2 protein, a 25-28 kDa molecule composed entirely of SH2 and SH3 domains, is a mammalian homolog of the Caenorhabditis elegans Sem-5 protein, which communicates between a receptor protein tyrosine kinase and a Ras protein. In the present study the function of Ash/Grb-2 was investigated by microinjecting cells with an anti-Ash antibody. The antibody abolished both S phase entry and the reorganization of actin assembly to ruffle formation upon stimulation with epidermal growth factor (EGF) and platelet-derived growth factor (PDGF). On the other hand, anti-Ash antibody had no effect on S phase entry or actin stress fiber formation induced by either serum or lysophosphatidic acid. Since the induction of DNA synthesis, ruffle induction and stress fiber formation involve a function of Ras, Rac activation and Rho activation respectively, the findings strongly suggest that Ash plays a critical role in the signaling of both pathways downstream from growth factor receptors to Ras and Rac. Consistent with this, Ash co-precipitated with EGF receptor from EGF-stimulated cells. Other proteins of approximately 21, 29, 135 and 160 kDa were also detected in the anti-Ash antibody immunoprecipitates, suggesting a role of Ash as a linker molecule in signal transduction downstream of growth factor receptors.
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PMID:Ash/Grb-2, a SH2/SH3-containing protein, couples to signaling for mitogenesis and cytoskeletal reorganization by EGF and PDGF. 825 73

Treatment of smooth-muscle cells with R-phenylisopropyladenosine (R-PIA) leads to a loss of A1 adenosine receptor (A1AR)-mediated inhibition of adenylate cyclase, a decrease in receptor number and an increase in receptor phosphorylation. In this study, the role of the beta-adrenergic receptor kinase (beta ARK) in the phosphorylation and inactivation of the A1AR was examined. A1ARs were purified from bovine brain and reconstituted into phospholipid vesicles, with or without a 10-fold excess of Gi/Go (a 50:50 mixture). The reconstituted receptor preparations were phosphorylated with beta ARK in the absence (control) or presence (treated) of R-PIA. R-PIA stimulated A1AR phosphorylation by 2-3-fold over control. Phosphorylation of the A1AR was blocked by XAC, and A1AR antagonist, underscoring its agonist dependence. The stoichiometry of phosphorylation obtained was approx. 1.3 mol of phosphate per mol of A1AR. Phosphorylation of the A1AR by beta ARK was enhanced by an additional 42% when G beta gamma (30 nM) was included in the phosphorylation mixture. In order to test the role of phosphorylation on receptor function, the purified A1AR was reconstituted with a mixture of Gi/Go, phosphorylated with beta ARK and used to determine high-affinity [125I]APNEA (A1AR agonist) binding. Agonist binding was reduced by about 50% in the treated preparations compared to control. In contrast, antagonist ([3H]XAC) binding was increased by about 50%. These data are consistent with an uncoupling of the A1AR from G proteins following receptor phosphorylation. In control preparations, R-PIA stimulated GTPase activity from 0.08 to 0.164 pmol Pi released/pmol Gi/Go per min. Phosphorylation of receptor by beta ARK reduced R-PIA-stimulated GTPase activity by 35%. In addition, phosphorylation of the A1AR by beta ARK decreased R-PIA-stimulated GTP gamma S binding by 62%. These data provide evidence that A1AR phosphorylation by beta ARK results in a diminished receptor-G-protein interaction.
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PMID:Functional consequences of A1 adenosine-receptor phosphorylation by the beta-adrenergic receptor kinase. 839 55

Activation of Ras GTPases is a conserved feature of antigen receptor signaling, including Fc epsilon R1 activation of mast cells. Antigenic cross-linking of the Fc epsilon R1 on mast cells results in secretion of allergic mediators and induction of immediate early and cytokine genes. Here we examine the role of Ras in coupling the Fc epsilon R1 to transcriptional regulation. The transcription factors Elk-1, an immediate early gene regulator and the nuclear factor of activated T cells (NFAT), in the context of the IL-4 gene, are identified as Ras targets in mast cells. Ras mediates diverse effects via its diverse effector pathways, which may include other members of the Ras GTPase family such as RhoA and Rac-1. We observe that Elk-1 and NFAT are targeted by distinct Ras effector pathways in mast cells. Activation of the "classical" Ras/Raf-1/MEK/ ERK cascade is necessary and sufficient for Fc epsilon R1 induction of Elk-1. Ras function is required, but not sufficient for Fc epsilon R1 induction of NFAT. However, activation or inhibition of Ras markedly shifts the antigen dose-response for Fc epsilon R1 induction of NFAT. The effector pathway for Ras activation of NFAT is not Raf-1/MEK. We identify that the Rac-1 GTPase is critical in Fc epsilon R1 regulation of NFAT, acting either in parallel with or as an effector of Ras. These data place Ras in a crucial position in mast cells, regulating disparate nuclear targets. Moreover, we identify that two GTPases, Ras and Rac-1, are important regulators of NFAT, and therefore of cytokine expression in mast cells.
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PMID:Distinct Ras effector pathways are involved in Fc epsilon R1 regulation of the transcriptional activity of Elk-1 and NFAT in mast cells. 899 40

Ras proteins play a central role in the control of cellular proliferation. They are 189 amino acid monomeric GTP-binding proteins that cycle between an inactive GDP-bound and the active GTP-bound state, and carry a slow intrinsic GTPase activity. Ras proteins are activated by growth promoting signals incoming from receptor tyrosine kinases via SH2 domain and SH3 domain containing adapter proteins and the Ras exchange factor Sos, as well as from serpentine receptors via the beta gamma subunits of heterotrimeric G proteins and the Ras exchange factor Ras-GRF (or Cdc25). Proteins that can stimulate the GTPase activity of Ras (GAPs) ensure that following mitogenic stimulations, they return to their inactive GDP-bound state; amongst these proteins are p120-GAP, neurofibomin (the product of the susceptibility gene to type I neurofibromatosis), as well as the inositol 1,3,4,5-tetrakisphosphate-dependent GAPIP4BF. Several effectors have been identified that mediate the biological effects of Ras. The serine/threonine kinase Raf-1, as well as the closely related protein B-Raf, elicit the ERK cascade of MAP kinases. Phosphatidylinositol-3-OH kinase is involved in the activation of the Rac/Rho family proteins that play a role in the control of actin polymerisation, as well as in growth control, RalGDS, RGL and Rlf, are responsible for the activation of the Ras-related protein Ral. Recent evidence, using effector domain mutants of Ras, demonstrates that these pathways cooperate to elicit the growth promoting effects of Ras proteins.
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PMID:[Isoprenylated proteins and cell proliferation: regulators and effectors of Ras proteins]. 925 47

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