EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Protein kinase D (PKD)/protein kinase C (PKC) mu is a serine/threonine protein kinase that can be activated by physiological stimuli like growth factors, antigen-receptor engagement and G protein-coupled receptor (GPCR) agonists via a phosphorylation-dependent mechanism that requires PKC activity. In order to investigate the dynamic mechanisms associated with GPCR signaling, the intracellular translocation of a green fluorescent protein-tagged PKD was analyzed by real-time visualization in fibroblasts and epithelial cells stimulated with bombesin, a GPCR agonist. We found that bombesin induced a rapidly reversible plasma membrane translocation of green fluorescent protein-tagged PKD, an event that can be divided into two distinct mechanistic steps. The first step, which is exclusively mediated by the cysteine-rich domain in the N terminus of PKD, involved its translocation from the cytosol to the plasma membrane. The second step, i.e. the rapid reverse translocation of PKD from the plasma membrane to the cytosol, required its catalytic domain and surprisingly PKC activity. These findings provide evidence for a novel mechanism by which PKC coordinates the translocation and activation of PKD in response to bombesin-induced GPCR activation.
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PMID:Rapid protein kinase D translocation in response to G protein-coupled receptor activation. Dependence on protein kinase C. 1141 May 87

Pancreatic secretagogues enhance acinar protein synthesis at physiological concentrations and inhibit protein synthesis at high concentrations. We investigated the potential role in this process of the eukaryotic translation initiation factor (eIF)2B. Cholecystokinin (CCK) at 10-100 pM did not significantly affect eIF2B activity, which averaged 35.4 nmol guanosine 5'-diphosphate exchanged per minute per milligram protein under control conditions; higher CCK concentrations reduced eIF2B activity to 38.2% of control. Carbamylcholine chloride (Carbachol, CCh), A-23187, and thapsigargin also inhibited eIF2B and protein synthesis, whereas bombesin and the CCK analog JMV-180 were without effect. Previous studies have shown that eIF2B can be negatively regulated by glycogen synthase kinase-3 (GSK-3). However, GSK-3 activity, as assessed by phosphorylation state, was inhibited at high concentrations of CCK, an effect that should have stimulated, rather than repressed, eIF2B activity. An alternative mechanism for regulating eIF2B is through phosphorylation of the alpha-subunit of eIF2, which converts it into an inhibitor of eIF2B. CCK, CCh, A-23187, and thapsigargin all enhanced eIF2alpha phosphorylation, suggesting that eIF2B activity is regulated by eIF2alpha phosphorylation under these conditions. Removal of Ca(2+) from the medium enhanced the inhibitory action of CCK on both protein synthesis and eIF2B activity as well as further increasing eIF2alpha phosphorylation. Although it is likely that other mechanisms account for the stimulation of acinar protein synthesis, these results suggest that the inhibition of acinar protein synthesis by CCK occurs as a result of depletion of Ca(2+) from the endoplasmic reticulum lumen leading to phosphorylation of eIF2alpha and inhibition of eIF2B.
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PMID:Effect of CCK and intracellular calcium to regulate eIF2B and protein synthesis in rat pancreatic acinar cells. 1180 48

Stimulation of pancreatic acinar cells with acetylcholine (ACh) and cholecystokinin (CCK) results in an elevation of cytosolic calcium ([Ca(2+)](c)) through activation of inositol 1,4,5-trisphosphate receptors (InsP(3)R). The global temporal pattern of the [Ca(2+)](c) changes produced by ACh or CCK stimulation differs significantly. The hypothesis was tested that CCK stimulation results in a protein kinase A (PKA)-mediated phosphorylation of InsP(3)R and this event contributes to the generation of agonist-specific [Ca(2+)](c) signals. Physiological concentrations of CCK evoked phosphorylation of the type III InsP(3)R, which was blocked by pharmacological inhibition of PKA. Imaging of fura-2-loaded acinar cells revealed that the rate of [Ca(2+)](c) rise during CCK-evoked oscillations slows with each subsequent oscillation, consistent with a developing modulation of release, whereas the kinetics of ACh-evoked oscillations remain constant. Stimulation of cells with ACh following activation of PKA resulted in a slowing of the ACh-evoked [Ca(2+)](c) rise, which now resembled a time-matched CCK response. PKA activation also resulted in a slowing of [Ca(2+)](c) increases elicited by photolysis of caged InsP(3). Targeted, PKA-mediated phosphorylation of type III InsP(3)R is involved in a physiological CCK response, as disruption of the targeting of PKA with the peptide HT31 resulted in marked changes in the CCK-evoked [Ca(2+)](c) signal but had no effect on ACh-evoked responses. Stimulation of cells with bombesin, which evokes [Ca(2+)](c) oscillations indistinguishable from those produced by CCK, also results in PKA-mediated phosphorylation of type III InsP(3)R. Thus, we conclude that PKA-mediated phosphorylation of type III InsP(3)R is a general mechanism by which the patterns of [Ca(2+)](c) oscillations are shaped in pancreatic acinar cells.
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PMID:A role for phosphorylation of inositol 1,4,5-trisphosphate receptors in defining calcium signals induced by Peptide agonists in pancreatic acinar cells. 1206 95

Neuropeptides can function as autocrine growth factors in cancer cells. High levels of bombesin (BB) and neurotensin (NT)-like immunoreactivity are present in small cell lung cancer (SCLC), a neuroendocrine tumor. Vasoactive intestinal peptide (VIP) stimulates and somatostatin (SST) inhibits the release of BB-like peptides from SCLC cells. BB-like peptides bind to BB(2) receptors, which are present on the cell surface. BB-like peptides stimulate the mitogen activated protein kinase (MAPK) cascade leading to increased expression of nuclear oncogenes and growth factors in SCLC cells. Due to the high density of neuropeptide receptors present on the cell surface, SST analogs have been radiolabeled to image neuroendocrine tumors. VIP receptors are present in many epithelial cancers including breast, colon, non-small cell lung cancer (NSCLC), pancreatic and prostate cancers. Due to the high density of VIP receptors on lung cancer cells, radiolabeled VIP agonists may be used to image these tumors. VIP receptor antagonists, such as VIPhybrid, inhibit the growth of cancer cell lines in vitro and in vivo. VIPhybrid and SR48692, a NT receptor antagonist, potentiate the cytotoxicity of chemotherapeutic drugs. These results suggest that neuropeptide receptor antagonists may be useful in the treatment of cancer.
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PMID:Neuropeptides as autocrine growth factors in cancer cells. 1257 Aug 13

Protein kinase D (PKD) potentiates cellular DNA synthesis in response to G protein-coupled receptor (GPCR) agonists but the mechanism(s) involved has not been elucidated. Here, we examined whether PKD overexpression in Swiss 3T3 cells regulates the activation/inactivation kinetics of the extracellular-regulated protein kinase (ERK) in response to the mitogenic GPCR agonists bombesin and vasopressin. Addition of bombesin or vasopressin to Swiss 3T3 cells overexpressing PKD induced a striking increase in the duration of MEK/ERK/RSK activation as compared with cultures of either control Swiss 3T3 cells or Swiss 3T3 cells expressing a kinase-inactive PKD mutant. In contrast, the duration of ERK activation in response to epidermal growth factor, which acts via protein kinase C/PKD-independent pathways, was not increased. Furthermore, bombesin or vasopressin promoted a striking increase in phosphorylation (at Ser-374) and accumulation of c-Fos (the c-fos proto-oncogene product) in Swiss 3T3 cells overexpressing wild-type (but not kinase-inactive) PKD. Inhibition of the sustained phase of ERK/RSK activation abrogated the increase in c-Fos accumulation and DNA synthesis induced by bombesin or vasopressin in PKD-overexpressing cells. Our results demonstrate that PKD selectively potentiates mitogenesis induced by bombesin or vasopressin in Swiss 3T3 cells by increasing the duration of MEK/ERK/RSK signaling.
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PMID:Protein kinase D potentiates DNA synthesis induced by Gq-coupled receptors by increasing the duration of ERK signaling in swiss 3T3 cells. 1496 34

Neuroendocrine (NE) cells are found in prostate tumors, and their incidence is considered a promising prognostic indicator for the development of androgen-independent disease. NE cells are derived from non-NE prostate cancer cells and secrete factors that can act in a paracrine manner to stimulate the survival, growth, motility, and metastatic potential of prostatic carcinoma cells. Factors such as IL-6, epinephrine, and forskolin induce NE differentiation in prostate cancer cells; the mechanisms involve increases in intracellular cAMP, protein kinase A (PKA) activation and reduced intracellular calcium levels. Transcription factors implicated in the acquisition of NE characteristics by prostate cancer cells include STAT3, CREB, EGR1, c-fos, and NF-kappaB. Expression of Chromogranin A, neuron-specific enolase, bcl-2, and the androgen receptor are modulated during NE differentiation and serve as molecular markers for NE cells. Most importantly, NE cells secrete neuropeptides, such as bombesin, neurotensin, PTHrP, serotonin, and calcitonin, which trigger growth and survival responses in androgen-independent prostate cancer cells. Prostate cancer cell receptors that play a role in these processes include the gastrin-releasing peptide (GRP) receptor, neurotensin receptors, and the epidermal growth-factor receptor (EGFR). Signal-transduction molecules activated by these neuropeptides include Src, focal adhesion kinase (FAK), ERK, and PI3K/Akt, with subsequent activation of Elk-1, NF-kappaB, and c-myc transcription factors. A multitude of genes are then expressed by prostate cancer cells, which are involved in proliferation, anti-apoptosis, migration, metastasis, and angiogenesis. Targeting of these pathways at multiple levels can be exploited to inhibit the process by which NE cells contribute to the progression of androgen-independent, treatment-refractory prostate cancer.
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PMID:Neuroendocrine cells in prostate cancer. 1566 58

Intracerebroventricular (i.c.v.) injections of bombesin (BN) and gastrin-releasing peptide (GRP) dose-dependently decreased food intake in male Wistar rats fasted for 17 h. Neuromedin B (NMB) did not show any effect on food intake. After BN administration, locomotor activity did not significantly change, compared with a vehicle-injected group. The anorexia induced by BN (0.3 microg) was perfectly inhibited by pretreatment with a GRP-receptor antagonist, [D-Tyr(6)]BN(6-13) methyl ester (10 microg), an NO synthase inhibitor, L-nitro-arginine (30 microg), and a PKG inhibitor, H-9 (2 microg). The cGMP concentration in the hypothalamus increased 1 h after administration when compared with the vehicle-injected group. On the other hand, an NMB-receptor antagonist, BIM23127 (10 microg), and the protein kinase (PK) C inhibitors, chelerythrine (2 microg) and Go6983 (2 microg), inhibited only the late phase of the anorexia. A PKC activator, phorbol 12, 13-dibutyrate (3 microg), injected into the ventricle decreased food intake. These findings suggest that BN suppresses food intake mainly mediated through the GRP receptor and NO-cGMP-PKG pathway, and NMB receptor and PKC is partly involved in the late phase of the anorexia.
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PMID:Mechanisms underlying anorexia after microinjection of bombesin into the lateral cerebroventricle. 1568 Jan 82

PKD is the founding member of a novel protein kinase family that also includes PKD2 and PKD3. PKD has been the focus of most studies up to date, but little is known about the mechanisms that mediate PKD3 activation. Here, we demonstrate that PKD3 immunoprecipitated from COS-7 cells transfected with a constitutively active G alpha q subunit (alpha(q)Q209L) exhibited a marked increase in basal activity. Addition of aluminum fluoride to cells co-transfected with PKD3 and wild type G alpha(q) also induced PKD3 activation. G alpha(q)-mediated PKD3 activation is associated with persistent translocation of PKD3 from both cytosol and nucleus to plasma membrane. Expression of a COOH-terminal fragment of G alpha q that acts in a dominant-negative fashion attenuated PKD3 activation in response to bombesin receptor stimulation. Our results indicate that G alpha q activation is sufficient to stimulate sustained PKD3 activation and show that the endogenous G alpha q is a major component in the signaling pathway that mediates bombesin-induced PKD3 activation.
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PMID:Protein kinase D3 activation and phosphorylation by signaling through G alpha q. 1608 Oct 49

Gastrointestinal peptides including mammalian bombesin-like peptides, cholecystokinin (CCK), gastrin, and neurotensin stimulate DNA synthesis and cell proliferation in cultured cells and are implicated as growth factors in a number of fundamental processes including development, inflammation, tissue regeneration, and neoplastic transformation. These agonists bind to G protein-coupled receptors (GPCRs) that promote Galpha q-mediated activation of beta isoforms of phospholipase C to produce two second messengers: Inositol (1,4,5) trisphosphate {Ins (1, 4, 5) P3} that mobilises Ca2+ from internal stores, and diacylglycerol that activates the classic and new isoforms of the protein kinase C (PKC) family. PKCs play a critical part in transducing bombesin/gastrin releasing peptide (GRP) receptor signals into activation of protein kinase cascades. Protein kinase D (PKD), a serine/threonine protein kinase with distinct structural and enzymological properties, is activated by phosphorylation in living cells through a new PKC-dependent signal transduction pathway. GPCR agonists including bombesin/GRP induce a rapid and striking activation of PKD by PKC. These results indicate that PKD functions downstream from PKCs and identify a new phosphorylation cascade that is activated by gastrointestinal peptide agonists. The bombesin/GRP GPCR also promotes rapid Rho-dependent assembly of focal adhesions, formation of actin stress fibres and tyrosine phosphorylation of multiple cellular proteins. We identified p125 focal adhesion kinase (FAK), p130 Crk-associated substrate (CAS) and paxillin as prominent targets of gastrointestinal peptide-stimulated tyrosine phosphorylation and developed a model that envisages a G12/Rho-dependent pathway connecting GPCR activation to the tyrosine phosphorylation of these focal adhesion proteins. Separate pathways mediate gastrointestinal peptide stimulation of additional tyrosine kinase pathways including transactivation of Src and epidermal growth factor receptor (EGFR). Tyrosine phosphorylation has a critical role in gastrointestinal peptide-induced cellular migration and cooperates with Gq-stimulated events to promote mitogenesis. The growth-promoting effects of neuropeptides and the elucidation of the signalling pathways that mediate their effects assume an added importance because these agonists and their receptors are increasingly implicated in sustaining the proliferation of clinically aggressive solid tumours including those from lung, pancreas, and colon.
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PMID:Gastrointestinal peptide signalling in health and disease. 1614 98

PKD is the founding member of a novel protein kinase family that also includes PKD2 and PKD3. PKD has been the focus of most studies up to date, but little is known about the mechanisms that mediate PKD3 activation. Here, we show that addition of aluminum fluoride to COS-7 cells cotransfected with PKD3 and Galpha13 or Galpha12 induced PKD3 activation, which was associated with a transient plasma membrane translocation of cytosolic PKD3. Treatment with Clostridium difficile toxin B blocked PKD3 activation induced by either bombesin or by aluminum fluoride-stimulated Galpha12/13 but did not affect Galphaq-induced PKD3 activation. Furthermore, PKD3 immunoprecipitated from cells cotransfected with a constitutively active Rac (RacV12) exhibited a marked increase in PKD3 basal catalytic activity. In contrast, cotransfection with active Rho (RhoQ63L), Cdc42 (Cdc42Q61L), or Ras (RasV12) did not promote PKD3 activation. Expression of either COOH-terminal dominant-negative fragment of Galpha13 or dominant negative Rac (Rac N17) attenuated bombesin-induced PKD3 activation. Treatment with protein kinase C (PKC) inhibitors prevented the increase in PKD3 activity induced by RacV12 and aluminum fluoride-stimulated Galpha12/13. The catalytic activation of PKD3 in response to RacV12, alpha12/13 signaling or bombesin correlated with Ser-731/Ser-735 phosphorylation in the activation loop of this enzyme. Our results indicate that Galpha12/13 and Rac are important components in the signal transduction pathways that mediate bombesin receptor-induced PKD3 activation.
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PMID:Activation of protein kinase D3 by signaling through Rac and the alpha subunits of the heterotrimeric G proteins G12 and G13. 1619 87

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