Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Recent biochemical evidence indicates that protein kinase C (PKC) and G-protein-coupled receptor kinases (GRKs) are involved in olfactory signal termination and desensitization. The polymerase chain reaction (PCR) was used to investigate the expression of PKC and GRK genes in olfactory tissue and in isolated olfactory receptor neurons from channel catfish (Ictalurus punctatus). Sequence analysis of cloned PKC PCR products showed that the alpha, beta, delta, epsilon, and theta isotypes were expressed in olfactory tissue. Sequence analysis of PCR products obtained from isolated olfactory receptor neurons showed that PKC beta and PKC delta were expressed in the receptor cells. A 600-bp GRK PCR product was obtained from isolated olfactory neurons that shared 86% and 92% amino acid sequence identity to the mammalian beta-adrenergic receptor kinase gene products beta ARK1 and beta ARK2, respectively. Go6976, a specific inhibitor of calcium-regulated PKC activity, completely inhibited odorant-stimulated PKC activity in isolated olfactory cilia. This result suggested that odorant-stimulated PKC activity is mediated by the calcium-sensitive PKC beta isotype. Taken together, these results are consistent with the conclusion that PKC beta and beta ARK mediate odorant receptor phosphorylation and olfactory signal termination.
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PMID:Protein kinase C and receptor kinase gene expression in olfactory receptor neurons. 932 56

To investigate whether G protein-coupled receptor kinases (GRKs) are involved in the regulation of the PTH/PTHrPR, we have established mutant SaOS-2 cells which stably overexpress (> 10-20-fold) a dominant negative form of the beta-adrenergic receptor kinase-1 (beta ARK-1). Acute (< or = 2 h) incubation with hPTH (1-34) induced significantly less (by up to 50%) downregulation of the PTH/PTHrPR in beta ARK-1 mutant SaOS-2 cells than observed in wild-type cells. Pretreatment of wild-type cells with PTH for 2 h induced homologous cAMP desensitisation to a second challenge with PTH, while the effect was blunted by up to 60% in beta ARK-1 mutant cells. We conclude that activation of beta ARK-1 (or a closely related GRK) is a critical component of the acute phase (< or = 2 h) of PTH-induced receptor downregulation and homologous cAMP desensitisation of the PTH/PTHrPR.
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PMID:Beta-adrenergic receptor kinase-1 acutely regulates PTH/PTHrP receptor signalling in human osteoblastlike cells. 937 30

Desensitization of G protein-coupled receptors involves phosphorylation of the receptors by G protein-coupled receptor kinases, such as the beta-adrenergic receptor kinase (beta ARK). beta ARK activity depends upon its translocation from the cytoplasm to the membrane. The beta gamma subunits of G proteins bind to beta ARK and recruit the kinase to the membrane. The G beta gamma binding domain is localized to a carboxyl terminal region of beta ARK but the beta ARK binding domain of G beta gamma is not known. We used the yeast two-hybrid assay to characterize the interaction between G beta and beta ARK. We demonstrate an interaction between the carboxyl terminus of beta ARK and G beta 2. The strength of this interaction is increased when the VP16 transactivation domain is placed on the carboxyl end of G beta 2, indicating that an accessible G beta 2 amino terminus is important for its interaction with beta ARK. In addition, we show that amino acids 1 to 145 of G beta 2 are sufficient for beta ARK binding.
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PMID:The beta-adrenergic receptor kinase interacts with the amino terminus of the G protein beta subunit. 938 95

We investigated ACE gene polymorphism in 80 patients with hypertrophic cardiomyopathy (HCM) and in 88 of their unaffected siblings and children. Genotypes were identified by polymerase chain reaction with oligonucleotide in intron 16 of the ACE gene. The D allele frequency was higher among patients with solitary HCM than among those with familial HCM. We also determined the expression of beta-adrenergic receptor kinase (beta ARK) mRNA in the heart in patients with congestive heart failure. beta ARK mRNA expression in failing heart was significantly increased compared with that in normal heart. These molecular biological methods such as investigation of ACE gene polymorphism and beta ARK mRNA expression are sufficient for detecting cardiac disease.
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PMID:[Evaluation of cardiac function by biochemical and molecular biological techniques]. 959 26

Receptors coupled to pertussis toxin (PTX)-sensitive Gi proteins regulate T lymphocyte cytokine secretion, proliferation, and chemotaxis, yet little is known about the molecular mechanisms of Gi protein signaling in mammalian lymphocytes. Using the Jurkat T lymphocyte cell line, we found that a stably expressed Gi protein-coupled receptor (the delta-opioid receptor (DOR1)) stimulates MEK-1 and extracellular signal-regulated kinases 1 and 2 (ERK1 and ERK2) and transcriptional activity by an ERK target, Elk-1, via a mechanism requiring a PTX-sensitive Gi protein. Levels of beta-adrenergic receptor kinase-1 C-terminal fragment that inhibited signaling by Gi protein beta gamma subunits in these cells had no effect on DOR1 stimulation of either MEK-1- or Elk-1-dependent transcription, indicating that this pathway is independent of beta gamma. Analysis of this betagamma-independent pathway indicates a role for a herbimycin A-sensitive tyrosine kinase. Unlike beta gamma-mediated pathways, the beta gamma-independent pathway was insensitive to RasN17, inhibitors of phosphatidylinositol 3-kinase (PI 3-kinase), and constitutive PI 3-kinase activity. The beta gamma-independent pathway regulates downstream events, since blocking it abrogated both Elk-1-dependent transcription and mobilization of the mitogenic transcription factor, AP-1, in response to DOR1 signaling. These results characterize a novel, Ras- and PI 3kinase-independent pathway for ERK activation by Gi protein signaling that is distinct from ERK activation by beta gamma and may therefore be mediated by the alphai subunit.
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PMID:Gi proteins use a novel beta gamma- and Ras-independent pathway to activate extracellular signal-regulated kinase and mobilize AP-1 transcription factors in Jurkat T lymphocytes. 1039 49

Using Fura-2 to measure changes in intracellular calcium ([Ca(2+)](i)), we show that P(2U)receptors in HT29 cells trigger an increase in [Ca(2+)](i)by pertussis toxin-insensitive G proteins. We then use replication-deficient adenoviruses expressing wild-type and dominant negative mutants of G(alpha q)and G(alpha i2), antisense directed against G(alpha q)or the C-terminal fragment of beta-adrenergic receptor kinase (beta ARK-CT) to identify these G proteins. We find the [Ca(2+)](i)response to UTP is not affected by increased expression of the wild-type G(alpha q), wild-type G(alpha i2)or beta ARK-CT, while it is blocked by over-expression of dominant negative G(alpha q). The timecourse of the UTP response is, however, altered by wild-type G(alpha q)and is only weakly inhibited by antisense G(alpha q). This suggests that the P(2U)response is mediated, at least partially, by a G protein distinct from G(alpha q). In contrast, the M(3)muscarinic response is inhibited by over-expression of antisense against G(alpha q), or over-expression of beta ARK-CT, a finding in agreement with our previous observation that the muscarinic response in HT29 cells is mediated by the beta gamma-subunits of G(q). We also find that P(2U)and M(3)receptors do not control identical Ca(2+)stores, suggesting that differential activation of G proteins can lead to Ca(2+)release from distinct stores.
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PMID:Purinergic responses in HT29 colonic epithelial cells are mediated by G protein alpha -subunits. 1085 91

G-protein-coupled receptor kinases (GRKs) are involved in the regulation of many G-protein-coupled receptors. As opposed to the other GRKs, such as rhodopsin kinase (GRK1) or beta-adrenergic receptor kinase (beta ARK, GRK2), no receptor substrate for GRK4 has been so far identified. Here we show that GRK4 is expressed in cerebellar Purkinje cells, where it regulates mGlu(1) metabotropic glutamate receptors, as indicated by the following: 1) When coexpressed in heterologous cells (HEK293), mGlu(1) receptor signaling was desensitized by GRK4 in an agonist-dependent manner (homologous desensitization). 2) In transfected HEK293 and in cultured Purkinje cells, the exposure to glutamate agonists induced internalization of the receptor and redistribution of GRK4. There was a substantial colocalization of the receptor and kinase both under basal condition and after internalization. 3) Kinase activity was necessary for desensitizing mGlu(1a) receptor and agonist-dependent phosphorylation of this receptor was also documented. 4) Antisense treatment of cultured Purkinje cells, which significantly reduced the levels of GRK4 expression, induced a marked modification of the mGlu(1)-mediated functional response, consistent with an impaired receptor desensitization. The critical role for GRK4 in regulating mGlu(1) receptors implicates a major involvement of this kinase in the physiology of Purkinje cell and in motor learning.
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PMID:The G-protein-coupled receptor kinase GRK4 mediates homologous desensitization of metabotropic glutamate receptor 1. 1109 76

Although palmitoylation of the beta(2)-adrenergic receptor (beta(2)AR), as well as its phosphorylation by the cyclic AMP-dependant protein kinase (PKA) and the beta-adrenergic receptor kinase (beta ARK), are known to play important roles in agonist-promoted desensitization, their relative contribution and mutual regulatory influences are still poorly understood. In this study, we investigated the role that the carboxyl tail PKA site (Ser(345,346)) of the beta(2)AR plays in its rapid agonist-promoted phosphorylation and desensitization. Mutation of this site (Ala(345,346)beta(2)AR) significantly reduced the rate and extent of the rapid desensitization promoted by sustained treatment with the agonist isoproterenol. The direct contribution of Ser(345,346) in desensitization was then studied by mutating all other putative PKA and beta ARK phosphorylation sites (Ala(261,262)beta ARK(-)beta(2)AR). We found this mutant receptor to be phosphorylated upon receptor activation but not following direct activation of PKA, suggesting a role in receptor-specific (homologous) but not heterologous phosphorylation. However, despite its phosphorylated state, Ala(261,262)beta ARK(-)beta(2)AR did not undergo rapid desensitization upon agonist treatment, indicating that phosphorylation of Ser(345,346) alone is not sufficient to promote desensitization. Taken with the observation that mutation of either Ser(345,346) or of the beta ARK phosphorylation sites prevented both the hyper-phosphorylation and constitutive desensitization of a palmitoylation-less mutant (Gly(341)beta(2)AR), our data suggest a concerted/synergistic action of the two kinases that depends on the palmitoylation state of the receptor. Consistent with this notion, in vitro phosphorylation of Gly(341)beta(2)AR by the catalytic subunit of PKA facilitated further phosphorylation of the receptor by purified beta ARK. Our study therefore allows us to propose a coordinated mechanism by which sequential depalmitoylation, and phosphorylation by PKA and beta ARK lead to the functional uncoupling and desensitization of the ss(2)AR.
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PMID:The palmitoylation state of the beta(2)-adrenergic receptor regulates the synergistic action of cyclic AMP-dependent protein kinase and beta-adrenergic receptor kinase involved in its phosphorylation and desensitization. 1114

Thrombin is a potent mitogen for vascular smooth muscle cells. However, the signaling pathways by which thrombin mediates its mitogenic response are not fully understood. The ERK (extracellular signal-regulated protein kinase) and JNK (c-Jun N-terminal kinase) members of the mitogen-activated protein kinase (MAPK) family are reported to be activated by thrombin. We have investigated the response to thrombin of another member of the MAPK family, p38 MAPK, which has been suggested to be activated by both stress and inflammatory stimuli in vascular smooth muscle cells. We found that thrombin induced time- and dose-dependent activation of p38 MAPK. Maximal stimulation of p38 MAPK was observed after a 10-min incubation with 1 unit ml(-1) thrombin. GF109203X, a protein kinase C inhibitor, and prolonged treatment with phorbol 12-myristate 13-acetate partially inhibited p38 MAPK activation. A tyrosine kinase inhibitor, genistein, also inhibited p38 MAPK activation in a dose-dependent manner. p38 MAPK activation was inhibited by overexpression of betaARK1ct (beta-adrenergic receptor kinase I C-terminal peptide). p38 MAPK activation was also inhibited by expression of dominant-negative Ras, not by dominant-negative Rac. We next examined the effect of a p38 MAPK inhibitor, SB203580, on thrombin-induced proliferation. SB203580 inhibited thrombin-induced DNA synthesis in a dose-dependent manner. These results suggest that thrombin activates p38 MAPK in a manner dependent on Gbetagamma, protein kinase C, a tyrosine kinase, and Ras, that p38 MAPK has a role in thrombin-induced mitogenic response in the cells.
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PMID:Thrombin activates p38 mitogen-activated protein kinase in vascular smooth muscle cells. 1138 1

Regulation of the PI3K-protein kinase B/Akt (serine/threonine kinase) cascade by PRL-releasing peptide (PrRP) and insulin in GH3 rat pituitary tumor cells was investigated. PrRP and insulin rapidly and transiently stimulated the activation of Akt, and the PI3K inhibitor wortmannin blocked the PrRP- or insulin-induced activation of Akt. Both pertussis toxin (10 ng/ml), which inactivates Gi/Go proteins, and expression of a peptide derived from the carboxyl terminus of the beta-adrenergic receptor kinase I, which specifically blocks signaling mediated by the betagamma subunits of G proteins, completely blocked the PrRP-induced Akt activation, suggesting that Gi/Go proteins are involved in PrRP-induced Akt activation, as they are in the activation of ERK by PrRP. Moreover, to determine whether a PI3K-Akt cascade regulates rat PRL (rPRL) promoter activity, we transfected the intact rPRL promoter ligated to the firefly luciferase reporter gene into GH3 cells. PrRP and insulin activated the rPRL promoter activity. Pretreatment with wortmannin or cotransfection with a dominant-negative Akt partially but significantly inhibited the induction of the rPRL promoter by PrRP or insulin. Cotransfection with a constitutively active Akt induced the rPRL promoter activity and cotransfection with a dominant-negative cAMP response element-binding protein (CREB) completely abolished the response of the rPRL promoter to the constitutively active Akt. Furthermore, either treatment with PrRP and insulin or transfection with the constitutively active Akt induced the phosphorylation of CREB. These results suggest that PrRP and insulin activate a PI3K-Akt cascade that is necessary to elicit rPRL promoter activity via a CREB-dependent mechanism.
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PMID:Regulation of the PRL promoter by Akt through cAMP response element binding protein. 1175 85


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