Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Intact bovine adrenal medullary chromaffin cells were preincubated with 32PO4, and the multiple-site phosphorylation of tyrosine hydroxylase (TH) was studied. Up to eight 32P-labeled peptides were produced by tryptic hydrolysis of TH; however, all of the tryptic phosphopeptides were derived from four phosphorylation sites--Ser8, Ser19, Ser31 and Ser40. In situ regulation of 32P incorporation into the latter three sites was demonstrated with a diverse set of pharmacological agents. 32P incorporation into Ser19 was preferentially increased by brief exposures to depolarizing secretagogues. Longer treatments also increased Ser31 and Ser40 phosphorylation. Nicotine, muscarine and vasoactive intestinal polypeptide--reflecting cholinergic and non-cholinergic components of sympatho-adrenal transmission--each produced different patterns of multiple-site phosphorylation of TH. Nicotine, bradykinin and histamine increased 32P incorporation at each of the three sites whereas muscarine, angiotensin II, endothelin III, prostaglandin E1, GABA and ATP selectively increased Ser31 phosphorylation. Nerve growth factor did not influence TH phosphorylation in chromaffin cells from adult adrenal glands but selectively increased Ser31 phosphorylation in chromaffin cells isolated from calf adrenal glands. 32P incorporation into Ser40 was selectively increased by forskolin and other cAMP-acting agents whereas vasoactive intestinal polypeptide increased Ser31 and Ser40 phosphorylation. Thus, the phosphorylation of TH in bovine chromaffin cells appears to be regulated at three sites by three separate intracellular signaling pathways--Ser19 via Ca2+/calmodulin-dependent protein kinase II; Ser31 via ERK (MAP2 kinases); and Ser40 via cAMP-dependent protein kinase. These signaling pathways, as well as the extracellular signals that were effective in stimulating them, are similar to those previously described for TH in rat pheochromocytoma cells. However, several of the pharmacological agents produced different patterns of multiple-site TH phosphorylation in the bovine chromaffin cells. These differences between tissues could be accounted for by differences in the coupling/access between the extracellular signal transduction systems and the intracellular signaling pathways as opposed to differences in the intracellular signaling pathways per se.
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PMID:Multiple signaling pathways in bovine chromaffin cells regulate tyrosine hydroxylase phosphorylation at Ser19, Ser31, and Ser40. 809 28

The beta gamma subunits (G beta gamma) of heterotrimeric G proteins modulate the activity of several signal-transducing effector molecules including G protein-coupled receptor kinases. G beta gamma binds to the carboxyl terminus of the beta-adrenergic receptor kinase (beta ARK) and regulates its activity. To investigate the effect of such a G beta gamma-binding domain on heterologous G beta gamma interactions, various receptors that can stimulate phospholipase C and/or type II adenylate cyclase were coexpressed in COS-7 cells with the carboxyl terminus of beta ARK1. Phosphoinositol hydrolysis in response to activation of receptors that stimulate phospholipase C via Gi beta gamma (alpha 2-adrenergic and M2-muscarinic cholinergic receptors) was markedly inhibited by the coexpressed beta ARK1 polypeptide, whereas that mediated by Gq alpha subunits (alpha 1-adrenergic and M1-muscarinic cholinergic receptors) was unaffected. Increased cellular cAMP levels due to stimulation of receptors and coexpressed adenylate cyclase II displayed marked inhibition in the presence of the beta ARK1 polypeptide. Moreover, inhibition of adenylate cyclase produced by alpha 2-adrenergic receptor stimulation (a Gi alpha-mediated process) was unaffected, indicating that the beta ARK1 polypeptide provides a useful tool for distinguishing between G alpha and G beta gamma pathways.
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PMID:Cellular expression of the carboxyl terminus of a G protein-coupled receptor kinase attenuates G beta gamma-mediated signaling. 811 63

The beta-adrenergic receptor kinase (beta ARK) specifically phosphorylates the activated form of the beta 2-adrenergic receptor (beta 2AR) and related G protein-coupled receptors. To further elucidate the role of beta ARK in receptor desensitization, we generated a beta ARK dominant negative mutant by converting an invariant lysine residue in the protein kinase catalytic domain to an arginine. Expressed and purified beta ARK-K220R was able to inhibit wild type beta ARK phosphorylation of the beta 2AR in vitro. When stably transfected into human bronchial epithelial BEAS-2B cells, beta ARK-K220R promoted a > 2-fold increase in beta-agonist-stimulated cAMP production without affecting beta 2AR sequestration. In contrast, beta ARK-K220R had no effect on the desensitization of the prostaglandin E2 receptor response in BEAS-2B cells. These findings directly demonstrate a role for beta ARK in desensitization of the beta 2AR in intact cells and establish the potential utility of using dominant negative mutants to elucidate the substrate specificity of G protein-coupled receptor kinases.
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PMID:A beta-adrenergic receptor kinase dominant negative mutant attenuates desensitization of the beta 2-adrenergic receptor. 817 32

beta-Adrenergic receptor kinase (beta ARK) and beta-arrestin function in the homologous or agonist-activated desensitization of G protein-coupled receptors. The isoforms beta ARK-2 and beta-arrestin-2 are highly enriched in and localized to the dendritic knobs and cilia of the olfactory receptor neurons where the initial events of olfactory signal transduction occur. Odorants induce a rapid and transient elevation of adenosine 3',5'-monophosphate (cAMP), which activates a nonspecific cation channel and produces membrane depolarization. Preincubation of rat olfactory cilia with antibodies raised against beta ARK-2 and beta-arrestin-2 increased the odorant-induced elevation of cAMP and attenuated desensitization. These results suggest that beta ARK-2 and beta-arrestin-2 mediate agonist-dependent desensitization in olfaction.
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PMID:Beta-adrenergic receptor kinase-2 and beta-arrestin-2 as mediators of odorant-induced desensitization. 838 59

We have previously shown that second-messenger-dependent kinases (cAMP-dependent kinase, protein kinase C) in the olfactory system are essential in terminating second-messenger signaling in response to odorants. We now document that subtype 2 of the beta-adrenergic receptor kinase (beta ARK) is also involved in this process. By using subtype-specific antibodies to beta ARK-1 and beta ARK-2, we show that beta ARK-2 is preferentially expressed in the olfactory epithelium in contrast to findings in most other tissues. Heparin, an inhibitor of beta ARK, as well as anti-beta ARK-2 antibodies, (i) completely prevents the rapid decline of second-messenger signals (desensitization) that follows odorant stimulation and (ii) strongly inhibits odorant-induced phosphorylation of olfactory ciliary proteins. In contrast, beta ARK-1 antibodies are without effect. Inhibitors of protein kinase A and protein kinase C also block odorant-induced desensitization and phosphorylation. These data suggest that a sequential interplay of second-messenger-dependent and receptor-specific kinases is functionally involved in olfactory desensitization.
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PMID:A beta-adrenergic receptor kinase-like enzyme is involved in olfactory signal termination. 838 66

The cDNA for human beta-arrestin-1 was cloned by polymerase chain reaction (PCR) and identified based on its remarkably high amino acid identity (98.6%) with the bovine sequence. Two alternatively spliced isoforms of human beta-arrestin-1, differing only in the presence or absence of 24 base pairs/8 amino acids within the sequence, were identified and called beta-arrestin-1A and beta-arrestin-1B, respectively. Both isoforms were found in all tissues tested. Southern blot analysis revealed the existence of a single gene for beta-arrestin-1, suggesting that the two isoforms are generated by alternative mRNA splicing. The possible presence of similar isoforms was investigated for the other members of the arrestin/beta-arrestin gene family by PCR. Two isoforms of arrestin were revealed in bovine peripheral blood leukocytes. The expression of beta-arrestin-1 was studied in several human tissues and cell types. High levels of beta-arrestin-1 mRNA and immunoreactivity were found in peripheral blood leukocytes. The possible regulation of the expression of beta-arrestin-1 was also investigated. Our work documents for the first time that the expression of beta-arrestin-1 is modulated by intracellular cAMP. Using two cell types, human endothelial cells and smooth muscle cells, we found that 6-8-h treatments with the cAMP-inducing agents cholera toxin, forskolin, iloprost, and isoproterenol raised beta-arrestin-1 mRNA by 2-4-fold. Forskolin preferentially increased beta-arrestin-1A expression in smooth muscle cells, as assessed by PCR. beta-Arrestin-1 immunoreactivity was 2-3-fold higher in smooth muscle cells exposed to forskolin for 8 h, compared with untreated controls. We conclude that (i) the finding of alternatively spliced isoforms of beta-arrestin-1 and arrestin documents a novel mechanism to generate diversity within the arrestin/beta-arrestin gene family; (ii) the abundant expression of beta-arrestin-1 in peripheral blood leukocytes further supports our previous suggestion of a major role for the beta ARK/beta-arrestin system in regulating receptor-mediated immune functions; (iii) the increased expression of beta-arrestin-1 by cAMP suggests a new mechanism for the regulation of receptor-mediated responses.
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PMID:Molecular analysis of human beta-arrestin-1: cloning, tissue distribution, and regulation of expression. Identification of two isoforms generated by alternative splicing. 848 59

Ligation of major histocompatibility complex (MHC) class II antigens expressed on antigen-activated human CD4+ T-lymphocytes induces early signal transduction events including the activation of tyrosine kinases, the tyrosine phosphorylation of phospholipase-C gamma 1 and the mobilization of intracellular calcium. Similar responses have been observed in B-cells following stimulation of MHC class II molecules, including the increased production of intracellular cAMP. In this report, we demonstrate that the ZAP-70 tyrosine kinase is a responsive signaling element following cross-linking of HLA-DR in class II+ T-cells, and that the homologous tyrosine kinase p72syk is stimulated in B-cells following ligation of class II antigens. Antibody mediated co-ligation of the T-cell antigen receptor (TCR/CD3) with class II molecules resulted in augmented tyrosine phosphorylation of ZAP-70. Comparable to antibody induced receptor ligation, bacterial superantigen (SEA and SEB) treatment of HLA-DR+ T-cells stimulated ZAP-70 tyrosine phosphorylation, consistent with class II transmembrane signaling by ligation of HLA-DR and V beta in cis. Modulation of the TCR/CD3 led to abrogation of class II induced ZAP-70 tyrosine phosphorylation, but did not result in sequestering of ZAP-70 from the cellular cytoplasm. Hyperphosphorylated ZAP-70 was associated with TCR/CD3 zeta-chain following cross-linking of HLA-DR, suggesting a mechanism for the TCR/CD3-dependence of class II induced signals in alloantigen-activated human T-cells. In both tonsillar B-lymphocytes and B-cell leukemia lines, p72syk was rapidly phosphorylated on tyrosine residues following HLA-DR cross-linking. Tyrosine phosphorylation of p72syk induced through ligation of either the B-cell antigen receptor or class II molecules was potently inhibited by herbimycin A. MHC class II ligation on B-lymphocytes resulted in cell death, which was both qualitatively distinct from Fas-induced apoptosis and partially protected by herbimycin A pretreatment. Thus, ligation of MHC class II molecules expressed on human lymphocytes stimulates the ZAP-70/p72syk family of tyrosine kinases, leading functionally to a tyrosine kinase-dependent pathway of receptor-induced cell death.
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PMID:ZAP-70 and p72syk are signaling response elements through MHC class II molecules. 852 73

Endothelial neutral endopeptidase (EC 3.4.24.11, NEP) contributes to the inactivation of vasoactive and inflammatory peptides such as f-Met-Leu-Phe, substance P, atrial natriuretic peptide, and bradykinin. The aim of the present study was to investigate the cellular regulation of NEP expression in human endothelial cells, focusing on the role of cyclic nucleotides and cellular phosphodiesterases (PDE). Activation of adenylate cyclase by forskolin or prostaglandin E1 (PGE1) induced an increase of NEP activity and NEP protein after 24 h of incubation. This effect was mimicked by two activators of protein kinase A, dibutyryl-cAMP and 8-bromo-cAMP. The nonspecific PDE inhibitor, 3-isobutyl-1-methylxanthine (200 microM), increased NEP activity up to 192%. The activator of guanylate cyclase, sodium nitroprusside (SNP), did not affect NEP activity but completely inhibited the 3-isobutyl-1-methylxanthine-mediated increase of NEP activity. The PDE-III inhibitors motapizone (100 microM) and enoximone (100 microM) enhanced NEP activity up to 188% and 213%, the PDE-IV inhibitor rolipram (3 microM) up to 162%, and the combined PDE-III/IV inhibitor zardaverine (1 microM) up to 176% of control values. The present data provide evidence for a cAMP-mediated increase of NEP activity in human endothelial cells.
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PMID:Activation of adenylate cyclase and phosphodiesterase inhibition enhance neutral endopeptidase activity in human endothelial cells. 854 50

Expression of phosphoenolpyruvate carboxykinase (PEPCK), the rate-limiting step in hepatic gluconeogenesis, is primarily regulated at the level of gene transcription. Insulin and phorbol esters inhibit basal PEPCK transcription and antagonize the induction of PEPCK gene expression by glucocorticoids and glucagon (or its second messenger cAMP). Insulin activates a signaling cascade involving Ras --> Raf --> p42/p44 mitogen-activated protein (MAP) kinase kinase (MEK) --> p42/p44 MAP kinase (ERK 1 and 2). Recent reports suggest that activation of this Ras/MAP kinase pathway is critical for the effects of insulin on mitogenesis and c-fos transcription but is not required for insulin action on metabolic processes such as glycogen synthesis, lipogenesis, and Glut-4-mediated glucose transport. We have used three distinct approaches to examine the role of the Ras/MAP kinase pathway in the regulation of PEPCK transcription by insulin in H4IIE-derived liver cells: (i) chemical inhibition of Ras farnesylation, (ii) infection of cells with an adenovirus vector encoding a dominant-negative mutant of Ras, and (iii) use of a chemical inhibitor of MEK. Although each of these methods blocks insulin activation of MAP kinase, none alters insulin antagonism of cAMP- and glucocorticoid-stimulated PEPCK transcription. Although phorbol esters activate MAP kinase and mimic the effects of insulin on PEPCK gene transcription, inhibition of MEK has no effect on phorbol ester inhibition of PEPCK gene transcription. Using the structurally and mechanistically distinct phosphatidylinositol 3-kinase (PI 3-kinase) inhibitors, wortmannin and LY 294002, we provide further evidence supporting a role for PI 3-kinase activation in the regulation of PEPCK gene transcription by insulin. We conclude that neither insulin nor phorbol ester regulation of PEPCK gene transcription requires activation of the Ras/MAP kinase pathway and that insulin signaling to the PEPCK promoter is dependent on PI 3-kinase activation.
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PMID:Insulin regulation of phosphoenolpyruvate carboxykinase gene expression does not require activation of the Ras/mitogen-activated protein kinase signaling pathway. 856 35

Ion transport can be regulated by dopamine receptors. D1-like receptors inhibit both Na+/H+ exchange (NHE) and Na+/K(+)-ATPase activity, whereas D2-like receptors stimulate NHE. However, the effect of D2-like receptors on Na+/K(+)-ATPase activity is controversial. In renal proximal tubular cells, where several D1-like and D2-like receptors are expressed, D2 agonists have been reported either to have no effect or to act in concert with D1 agonists to inhibit Na+/K(+)-ATPase activity. We therefore studied the effect of D2 receptors on Na+/K(+)-ATPase activity in LTK- cells transfected with a rat D2Long receptor cDNA (maximum receptor density = 0.91 +/- 0.26 pmol/mg protein, dissociation constant = 2.39 +/- 0.79 nM, seven experiments). The activation of D2 receptors in these transfected cells by the selective D2 agonist LY171555 led to the inhibition of forskolin-stimulated cAMP accumulation. In the D2Long-transfected, but not in nontransfected cells, LY171555 caused a concentration-dependent stimulation of Na+/K(+)-ATPase activity (EC50 = 0.55 +/- 0.2 microM, Emax = 28 +/- 6%, six experiments), which was completely blocked by the D2-selective antagonist (-)-sulpiride. The D2-stimulated Na+/K(+)-ATPase activity was not secondary to D2 receptor activation of K+ channels or NHE activity since LY171555 stimulated Na+/K(+)-ATPase activity in D2Long-transfected cells, even when K+ channels were blocked by CsCl and intracellular Na+ was clamped by monensin. The D2-stimulated Na+/K(+)-ATPase activity was blocked by pertussis toxin and mimicked by dideoxyadenosine. We conclude that agonist occupancy of D2Long dopamine receptors stimulates Na+/K(+)-ATPase activity; this effect is mediated by the inhibition of cAMP production and is independent of intracellular Na+ and K+ concentration.
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PMID:Dopamine D2L receptors stimulate Na+/K(+)-ATPase activity in murine LTK- cells. 863 72


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