EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myelopoiesis and lymphopoiesis are controlled by haematopoietic growth factors, including cytokines, and chemokines that bind to G-protein-coupled receptors (GPCRs). Regulators of G-protein signalling (RGSs) are a protein family that can act as GTPase-activating proteins for G(alphai)- and G(alphaq)-class proteins. We have identified a new member of the R4 subfamily of RGS proteins, RGS18. RGS18 contains clusters of hydrophobic and basic residues, which are characteristic of an amphipathic helix within its first 33 amino acids. RGS18 mRNA was most highly abundant in megakaryocytes, and was also detected specifically in haematopoietic progenitor and myeloerythroid lineage cells. RGS18 mRNA was not detected in cells of the lymphoid lineage. RGS18 was also highly expressed in mouse embryonic 15-day livers, livers being the principal organ for haematopoiesis at this stage of fetal development. RGS1, RGS2 and RGS16, other members of the R4 subfamily, were expressed in distinct progenitor and mature myeloerythroid and lymphoid lineage blood cells. RGS18 was shown to interact specifically with the G(alphai-3) subunit in membranes from K562 cells. Furthermore, overexpression of RGS18 inhibited mitogen-activated-protein kinase activation in HEK-293/chemokine receptor 2 cells treated with monocyte chemotactic protein-1. In yeast cells, RGS18 overexpression complemented a pheromone-sensitive phenotype caused by mutations in the endogeneous yeast RGS gene, SST2. These data demonstrated that RGS18 was expressed most highly in megakaryocytes, and can modulate GPCR pathways in both mammalian and yeast cells in vitro. Hence RGS18 might have an important role in the regulation of megakaryocyte differentiation and chemotaxis.
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PMID:RGS18 is a myeloerythroid lineage-specific regulator of G-protein-signalling molecule highly expressed in megakaryocytes. 1156 74

The eyestalk of the lobster, Jasus edwardsii, is an important source for hormones involved in the regulation of growth and reproduction. How these hormones transfer their messages to the cell and nucleus is not known. This paper describes the cloning, characterization and expression analyses of two genes that code for two membrane-associated peptides that may be involved in signal transduction. These genes, peJK2 and peJK3, were isolated from a cDNA library derived from lobster eyestalk mRNAs. The two clones shared 96.6 % sequence homology, and code for putative proteins of 110 and 113 amino acids, respectively. These were likely to be two allelic forms of the same gene. Northern blot analysis using these clones as probes detected the same mRNA from eyestalk, muscle and epithelial extracts, but with greater intensity in the eyestalk extract. In situ hybridisation also indicated the predominant expression of these genes in the eyestalk. Analysis of the putative protein sequences showed that they contained two transmembrane (TM) helices, a short amino acid sequence sharing high homology with the G-protein-coupled receptor (GPCR) motif in the second TM, a signal sequence between the TMs, and a protein kinase phosphorylation site at the C termini. Sequence analyses therefore suggested that the deduced peptides may function in signal transduction.
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PMID:Molecular cloning and characterisation of a novel membrane receptor gene from the lobster Jasus edwardsii. 1160 10

The multisubstrate docking protein, growth-factor-receptor-bound protein 2-associated binder 1 (Gab1), which is phosphorylated on tyrosine residues following activation of receptor tyrosine kinases and cytokine receptors, regulates cell proliferation, survival and epithelial morphogenesis. Gab1 is also tyrosine phosphorylated following activation of G-protein-coupled receptors (GPCRs) where its function is poorly understood. To elucidate the role of Gab1 in GPCR signalling, we investigated the mechanism by which the type A endothelin-1 (ET-1) GPCR induced tyrosine phosphorylation of Gab1. Tyrosine phosphorylation of Gab1 induced by endothelin-1 was inhibited by PP1, a pharmacological inhibitor of Src-family tyrosine kinases. ET-1-induced Gab1 tyrosine phosphorylation was also inhibited by LY294002, which inhibits phosphoinositide 3-kinase (PI 3-kinase) enzymes. Inhibition of Src-family tyrosine kinases or PI 3-kinase also inhibited ET-1-induced activation of the mitogen activated protein kinase family member, extracellular signal-regulated kinase (ERK) 1. Thus we determined whether Gab1 regulated ET-1-induced ERK1 activation. Overexpression of wild-type Gab1 potentiated ET-1-induced activation of ERK1. Structure-function analyses of Gab1 indicated that mutant forms of Gab1 that do not bind the Src homology (SH) 2 domains of the p85 adapter subunit of PI 3-kinase or the SH2-domain-containing protein tyrosine phosphatase 2 (SHP-2) were impaired in their ability to potentiate ET-1-induced ERK1 activation. Taken together, our data indicate that PI 3-kinase and Src-family tyrosine kinases regulate ET-1-induced Gab1 tyrosine phosphorylation, which, in turn, induces ERK1 activation via PI 3-kinase- and SHP-2-dependent pathways.
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PMID:Src-family tyrosine kinases, phosphoinositide 3-kinase and Gab1 regulate extracellular signal-regulated kinase 1 activation induced by the type A endothelin-1 G-protein-coupled receptor. 1169 94

Recently we have shown that the FP(B) prostanoid receptor, a G-protein-coupled receptor that couples to Galpha(q), activates T-cell factor (Tcf)/lymphoid enhancer factor (Lef)-mediated transcriptional activation (Fujino, H., and Regan, J. W. (2001) J. Biol. Chem. 276, 12489-12492). We now report that the EP(2) and EP(4) prostanoid receptors, which couple to Galpha(s), also activate Tcf/Lef signaling. By using a Tcf/Lef-responsive luciferase reporter gene, transcriptional activity was stimulated approximately 10-fold over basal by 1 h of treatment with prostaglandin E(2) (PGE(2)) in HEK cells that were stably transfected with the human EP(2) and EP(4) receptors. This stimulation of reporter gene activity was accompanied by a PGE(2)-dependent increase in the phosphorylation of both glycogen synthase kinase-3 (GSK-3) and Akt kinase. H-89, an inhibitor of protein kinase A (PKA), completely blocked the agonist-dependent phosphorylation of GSK-3 in both EP(2)- and EP(4)-expressing cells. However, H-89 pretreatment only blocked PGE(2)-stimulated Lef/Tcf reporter gene activity by 20% in EP(4)-expressing cells compared with 65% inhibition in EP(2)-expressing cells. On the other hand wortmannin, an inhibitor of phosphatidylinositol 3-kinase, had the opposite effect and inhibited PGE(2)-stimulated reporter gene activity to a much greater extent in EP(4)-expressing cells as compared with EP(2)-expressing cells. These findings indicate that the activation of Tcf/Lef signaling by EP(2) receptors occurs primarily through a PKA-dependent pathway, whereas EP(4) receptors activate Tcf/Lef signaling mainly through a phosphatidylinositol 3-kinase-dependent pathway. This is the first indication of a fundamental difference in the signaling potential of EP(2) and EP(4) prostanoid receptors.
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PMID:Phosphorylation of glycogen synthase kinase-3 and stimulation of T-cell factor signaling following activation of EP2 and EP4 prostanoid receptors by prostaglandin E2. 1170 38

The cellular adhesion status and the exposure to soluble growth factors both contribute to mitogen-activated protein (MAP) kinase activation. To date, however, whether mitogens acting through G-protein-coupled receptors (GPCRs) need cell adhesion to activate MAP kinases/extracellular signal-regulated kinases (ERK) 1, 2 has been poorly investigated. We addressed this point in primary cultures of Sertoli cells experimentally maintained in suspension, considering that follicle-stimulating hormone (FSH) activates ERK1, 2 in attached Sertoli cells by acting through a GPCR. We found that FSH actively repressed ERK1, 2, in a cAMP-dependent but cAMP-dependent protein kinase (PKA)-independent manner, and this inhibition required the activity of a tyrosine phosphatase. In comparison, in the absence of anchorage, ERK1, 2 were still activated by epidermal growth factor, in a PKA-dependent manner. Altogether, these data suggest that sensitivity of the MAP kinase response toward cell adhesion may depend, at least in part, on the class of receptor, GPCR or receptor with tyrosine kinase activity, by which it is triggered.
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PMID:Cellular adhesion of primary Sertoli cells affects responsiveness of the extracellular signal-regulated kinases 1 and 2 to follicle-stimulating hormone but not to epidermal growth factor. 1188 12

Over the past decade, it has become apparent that many G-protein-coupled receptors (GPCRs) generate signals that control cellular differentiation and growth, including stimulation of Ras family GTPases and activation of mitogen-activated protein (MAP) kinase pathways. The mechanisms that GPCRs use to control the activity of MAP kinases vary between receptor and cell type but fall broadly into one of three categories: signals initiated by classical G protein effectors, e.g., protein kinase (PK)A and PKC, signals initiated by cross-talk between GPCRs and classical receptor tyrosine kinases, e.g., "transactivation" of epidermal growth factor (EGF) receptors, and signals initiated by direct interaction between beta-arrestins and components of the MAP kinase cascade, e.g., beta-arrestin "scaffolds". While each of these pathways results in increased cellular MAP kinase activity, emerging data suggest that they are not functionally redundant. MAP kinase activation occurring via PKC-dependent pathways and EGF receptor transactivation leads to nuclear translocation of the kinase and stimulates cell proliferation, while MAP kinase activation via beta-arrestin scaffolds primarily increases cytosolic kinase activity. By controlling the spatial and temporal distribution of MAP kinase activity within the cell, the consequences of GPCR-stimulated MAP kinase activation may be determined by the mechanism by which they are activated.
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PMID:Activation and targeting of mitogen-activated protein kinases by G-protein-coupled receptors. 1205 42

Although originally linked to receptor desensitization, G-protein-coupled receptor (GPCR) phosphorylation has now been implicated in coupling receptors to specific signalling pathways. Generally, this phosphorylation event is thought to be mediated by one of the members of the GPCR kinase (GRK) family. However, recent studies have indicated that protein kinases distinct from the GRK family might also be involved in agonist-mediated GPCR phosphorylation. This review analyses the approaches employed to investigate the nature of GPCR phosphorylation and discusses recent developments implicating other kinases, particularly casein kinase 1 alpha, in the phosphorylation of GPCRs.
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PMID:Are we beta-ARKing up the wrong tree? Casein kinase 1 alpha provides an additional pathway for GPCR phosphorylation. 1211 55

The beta(2)-adrenergic receptor (beta(2)AR) is perhaps the most thoroughly investigated of all G-protein-coupled receptors. Although the classical pathway of beta(2)AR signaling involves agonist-promoted binding of the receptor to the heterotrimeric guanosine triphosphate-binding protein G(s), activation of adenylyl cyclase, and production of cyclic adenosine monophosphate (cAMP), current evidence suggests that beta(2)AR signaling is regulated by interaction with multiple proteins. These interactions fall into 3 major groups: guanosine triphosphate-binding proteins such as G(s) and G(i); protein kinases such as the cAMP-dependent protein kinase, protein kinase C, G-protein-coupled receptor kinases, and tyrosine kinases; and adaptor proteins such as arrestins, A-kinase anchoring proteins, and the Na(+)/H(+)-exchanger regulatory factor. This review discusses these various interactions with particular emphasis on their role in regulating beta(2)AR signaling and trafficking.
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PMID:Novel beta2-adrenergic receptor signaling pathways. 1246 29

Developing axons are guided to their appropriate targets by environmental cues through the activation of specific receptors and intracellular signaling pathways. Here we report that gradients of pituitary adenylate cyclase-activating polypeptide (PACAP), a neuropeptide widely expressed in the developing nervous system, induce marked attraction of Xenopus growth cones in vitro. PACAP exerted its chemoattractive effects through PAC1, a PACAP-selective G-protein-coupled receptor (GPRC) expressed at the growth cone. Furthermore, the attraction depended on localized cAMP signaling because it was completely blocked either by global elevation of intracellular cAMP levels using forskolin or by inhibition of protein kinase A using specific inhibitors. Moreover, local direct elevation of intracellular cAMP by focal photolysis of caged cAMP compounds was sufficient to induce growth cone attraction. On the other hand, blockade of Ca2+, phospholipase C, or phosphatidyl inositol-3 kinase signaling pathways did not affect PACAP-induced growth cone attraction. Finally, PACAP-induced attraction also involved the Rho family of small GTPases and required local protein synthesis. Taken together, our results establish cAMP signaling as an independent pathway capable of mediating growth cone attraction induced by a physiologically relevant peptide acting through GPCRs. Such a direct cAMP pathway could potentially operate in other guidance systems for the accurate wiring of the nervous system.
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PMID:Direct cAMP signaling through G-protein-coupled receptors mediates growth cone attraction induced by pituitary adenylate cyclase-activating polypeptide. 1265 86

The presynaptic regulation of striatal glutamate transmission was investigated using D-[3H]aspartate and mouse striatal slices. Functional changes in voltage-dependent and glutamate receptor-gated ion channels were elicited by pharmacologically modifying intracellular cyclic AMP formation via G-protein-coupled receptor stimulation. The kainate (KA)-evoked release was potentiated by the stimulatory G-protein (G(s))-coupled beta-adrenoceptor agonist isoproterenol (ISO) in a concentration-dependent manner. This effect was mimicked by the specific calmodulin (CaM) antagonists trifluoperazine and calmidazolium. Tetrodotoxin (TTX), a blocker of Na(+) channels, did not affect the basal release but inhibited to the same degree the releases evoked by kainate alone and by kainate and isoproterenol together. Vinpocetine, a blocker of voltage-dependent Na(+) channels, did not alter the basal or the evoked release. The Na(+) channel activator veratridine enhanced the basal release in a concentration-dependent manner and isoproterenol attenuated this effect. The opposite effects of isoproterenol on the kainate- and veratridine-evoked releases may reflect prevention of the cyclic AMP-protein kinase A (PKA) phosphorylation cascade in striatal glutamatergic signal transduction. In addition, the calmidazolium-induced potentiation of kainate-evoked release was thwarted by LY354740 and L-2-amino-4-phosphonobutanoate, agonists of the inhibitory G-protein (G(i))-coupled metabotropic group II and III glutamate receptors (mGluRs). Vinpocetine, which inhibits the CaM-dependent phosphodiesterase (PDE1), was likewise inhibitory. In turn, selective agonists and antagonists of the G(q)-protein-coupled group I mGluRs and (S)-3,5-dihydroxyphenylglycine (3,5-DHPG) and (RS)-1-aminoindan-1,5-dicarboxylate (AIDA), which modulate the intracellular Ca(2+) levels, did not alter the kainate-evoked release. The beta-adrenoceptor-mediated cyclic AMP accumulation seems to downregulate Na(+) channels but to enhance glutamate release by means of upregulation of kainate receptors. This regulation of presynaptic ligand- and voltage-gated ion channels is affected by the cAMP-protein kinase A-dependent phosphorylation cascade and controlled by G(i)-protein-coupled mGluRs.
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PMID:Cyclic AMP-mediated regulation of striatal glutamate release: interactions of presynaptic ligand- and voltage-gated ion channels and G-protein-coupled receptors. 1274 88

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