EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sphingosine-1-phosphate (S1P) is a highly bioactive sphingolipid involved in diverse biological processes leading to changes in cell growth, differentiation, motility, and survival. S1P generation is regulated via sphingosine kinase (SK), and many of its effects are mediated through extracelluar action on G-protein-coupled receptors. In this study, we have investigated the mechanisms regulating SK, where this occurs in the cell, and whether this leads to release of S1P extracellularly. The protein kinase C (PKC) activator, phorbol 12-myristate 13-acetate (PMA), induced early activation of SK in HEK 293 cells, and this activation was more specific to the membrane-associated SK. Therefore, we next investigated whether PMA induced translocation of SK to the plasma membrane. PMA induced translocation of both endogenous and green fluorescent protein (GFP)-tagged human SK1 (hSK1) to the plasma membrane. PMA also induced phosphorylation of GFP-hSK1. The PMA-induced translocation was abrogated by preincubation with known PKC inhibitors (bisindoylmaleimide and calphostin-c) as well as by the indirect inhibitor of PKC, C(6)-ceramide, supporting a role for PKC in mediating translocation of SK to the plasma membrane. SK activity was not necessary for translocation, because a dominant negative G82D mutation also translocated in response to PMA. Importantly, PKC regulation of SK was accompanied by a 4-fold increase in S1P in the media. These results demonstrate a novel mechanism by which PKC regulates SK and increases secretion of S1P, allowing for autocrine/paracrine signaling.
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PMID:PKC-dependent activation of sphingosine kinase 1 and translocation to the plasma membrane. Extracellular release of sphingosine-1-phosphate induced by phorbol 12-myristate 13-acetate (PMA). 1212 83

Calcitonin induces the association and tyrosine phosphorylation of focal adhesion kinase (FAK), paxillin, and HEF1 in HEK-293 cells that overexpress the calcitonin receptor (C1a-HEK), but the hormone's effect on these adhesion-related proteins in osteoclasts is not known. We therefore studied the effect of calcitonin on the tyrosine phosphorylation and subcellular distribution of paxillin, HEF1, FAK, and Pyk2, a FAK-related tyrosine kinase, in osteoclasts. Osteoclasts expressed both Pyk2 and FAK, with Pyk2 much more highly expressed. The two tyrosine kinases and paxillin were prominently associated with small punctate structures that were most densely clustered in the region of the peripheral F-actin-rich ring. Some of the punctate structures stained either for Pyk2 alone or FAK alone. Treatment with calcitonin disrupted the actin ring and induced the loss of the peripheral staining of paxillin, Pyk2, and FAK. In calcitonin-treated osteoclast-like cells, the tyrosine phosphorylation of paxillin and FAK increased, whereas the tyrosine phosphorylation of Pyk2 decreased. Calcitonin also induced increased phosphorylation of Erk1 and Erk2 in osteoclasts, as it did in the C1a-HEK cells. The unexpected dephosphorylation of Pyk2 correlated with decreased phosphorylation of Tyr(402), the autophosphorylation site of Pyk2. The calcitonin-induced dephosphorylation of Pyk2 was not observed in C1a-HEK cells transfected with Pyk2, suggesting that the reduced phosphorylation seen in osteoclasts may be specific to these cells. Treatment of osteoclast-like cells with 12-phorbol 13-myristate acetate increased the tyrosine phosphorylation of both Pyk2 and FAK, and calphostin C, an inhibitor of protein kinase C, blocked calcitonin-stimulated FAK phosphorylation. Increasing intracellular calcium with ionomycin caused a decrease in the tyrosine phosphorylation of Pyk2 and the loss of the actin ring in a manner similar to the effect of calcitonin. Ionomycin had no effect on FAK tyrosine phosphorylation. Calcitonin (CT)-induced changes in Pyk2, FAK, and Erk1/2 phosphorylation were independent of c-Src.
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PMID:Calcitonin induces dephosphorylation of Pyk2 and phosphorylation of focal adhesion kinase in osteoclasts. 1223 7

G protein-coupled receptor kinases are well characterized for their ability to phosphorylate and desensitize G protein-coupled receptors (GPCRs). In addition to phosphorylating the beta2-adrenergic receptor (beta2AR) and other receptors, G protein-coupled receptor kinase 2 (GRK2) can also phosphorylate tubulin, a nonreceptor substrate. To identify novel nonreceptor substrates of GRK2, we used two-dimensional gel electrophoresis to find cellular proteins that were phosphorylated upon agonist-stimulation of the beta2AR in a GRK2-dependent manner. The ribosomal protein P2 was identified as an endogenous HEK-293 cell protein whose phosphorylation was increased following agonist stimulation of the beta2AR under conditions where tyrosine kinases, PKC and PKA, were inhibited. P2 along with its other family members, P0 and P1, constitutes a part of the elongation factor-binding site connected to the GTPase center in the 60S ribosomal subunit. Phosphorylation of P2 is known to regulate protein synthesis in vitro. Further, P2 and P1 are shown to be good in vitro substrates for GRK2 with K(M) values approximating 1 microM. The phosphorylation sites in GRK2-phosphorylated P2 are identified (S102 and S105) and are identical to the sites known to regulate P2 activity. When the 60S subunit deprived of endogenous P1 and P2 is reconstituted with GRK2-phosphorylated P2 and unphosphorylated P1, translational activity is greatly enhanced. These findings suggest a previously unrecognized relationship between GPCR activation and the translational control of gene expression mediated by GRK2 activation and P2 phosphorylation and represent a potential novel signaling pathway responsible for P2 phosphorylation in mammals.
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PMID:Beta 2-adrenergic receptor stimulated, G protein-coupled receptor kinase 2 mediated, phosphorylation of ribosomal protein P2. 1237 28

Properties and regulation of the human organic cation (OC) transporter type 2 (hOCT2) expressed in HEK-293 cells were extensively characterized using the fluorescent OC 4-[4-(dimethylamino)styryl]-N-methylpyridinium (ASP(+)). ASP(+) uptake was electrogenic and inhibited by TPA(+) (EC(50) = 2.7 microM), tetraethylammonium (EC(50) = 35 microM), cimetidine (EC(50) = 36 microM), or quinine (EC(50) = 6.7 microM). Stimulation with carbachol or ATP decreased initial uptake by 44 +/- 3 (n = 14) and 34 +/- 4% (n = 21), respectively, independently of PKC but dependent on phosphatidylinositol 3-kinase (PI3K). PKA stimulation decreased uptake by 18 +/- 4% (n = 40). Inhibition of calmodulin (CaM), Ca(2+)/CaM-dependent kinase II, or myosin light chain kinase decreased uptake by 63 +/- 2 (n = 15), 40 +/- 4 (n = 30), and 31 +/- 4% (n = 16), respectively. Inhibition of CaM resulted in a significant change in the EC(50) value for the inhibition of ASP(+) uptake by tetraethylammonium. In conclusion, we demonstrate that the hOCT2 is inhibited by PI3K and PKA and activated by a CaM-dependent signaling pathway, probably via a change in substrate affinity.
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PMID:Regulation of human organic cation transporter hOCT2 by PKA, PI3K, and calmodulin-dependent kinases. 1238 97

RNA interference (RNAi), the targeted mRNA degradation induced by double-stranded RNA (dsRNA), is a powerful tool for analyzing gene function in many organisms. Recently, it has been shown that RNAi is also applicable to cultured mammalian cells by using short interfering RNA (siRNA) [Nature 411 (2001) 494]. To examine whether this siRNA method is useful for analyzing the subtype-specific functions of protein kinase C (PKC), we first prepared siRNAs which target human alphaPKC and human deltaPKC and applied them into mammalian cells to suppress the expression of endogenous alphaPKC and deltaPKC, respectively. Each siRNA for alpha or deltaPKC specifically suppressed the endogenous expression of corresponding PKC subtype in human-derived cell lines such as HEK-293 and HeLa cells, but not in cells derived from rat species. The suppression level of deltaPKC reached maximum 48-72h after the transfection of siRNA. In addition, the siRNA targeting rat deltaPKC suppressed endogenous and exogenous rat deltaPKCs but not human deltaPKC, suggesting that siRNAs targeting PKCs effectively knocked down endogenous/exogenous PKCs in mammalian cells, in subtype- and species-specific manner. Furthermore, we also developed the method to discriminate the siRNA-transfected cells using the antibody recognizing thymine dimer. Our present results strongly suggest that siRNA method enable us to examine the subtype-specific function of PKC, not only by knockdown of the endogenous target PKC subtype, but also by subsequent compensation with the exogenous corresponding wild/mutant PKC derived from other species.
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PMID:Subtype- and species-specific knockdown of PKC using short interfering RNA. 1241 15

Ethanol can enhance G(salpha)-stimulated adenylyl cyclase (AC) activity. Of the nine isoforms of AC, type 7 (AC7) is the most sensitive to ethanol. The potentiation of AC7 by ethanol is dependent on protein kinase C (PKC). We designed studies to determine which PKC isotype(s) are involved in the potentiation of Galpha(s)-activated AC7 activity by ethanol and to investigate the direct phosphorylation of AC7 by PKC. AC7 was phosphorylated in vitro by the catalytic subunits of PKCs. The addition of ethanol to AC7-transfected HEK 293 cells increased the endogenous phosphorylation of AC7, as indicated by a decreased "back-phosphorylation" of AC7 by PKC in vitro. The potentiation of Galpha(s)-stimulated AC7 activity by either phorbol 12,13-dibutyrate or ethanol, in HEL cells endogenously expressing AC7, was not through the Ca(2+)-sensitive conventional PKCs. However, the potentiation of AC7 activity by ethanol or phorbol 12,13-dibutyrate was found to be reduced by the selective inhibitor of PKCdelta (rottlerin), a PKCdelta-specific inhibitory peptide (deltaV1-1), and the expression of the dominant negative form of PKCdelta. Immunoprecipitation data indicated that PKCdelta could bind and directly phosphorylate AC7. The results indicate that the potentiation of AC7 activity by ethanol involves phosphorylation of AC7 that is mediated by PKCdelta.
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PMID:Ethanol-induced phosphorylation and potentiation of the activity of type 7 adenylyl cyclase. Involvement of protein kinase C delta. 1245 8

The cGMP-dependent protein kinases (PKG) are emerging as important components of mainstream signal transduction pathways. Nitric oxide-induced cGMP formation by stimulation of soluble guanylate cyclase is generally accepted as being the most widespread mechanism underlying PKG activation. In the present study, PKG was found to be a target for phorbol 12-myristate 13-acetate (PMA)-responsive protein kinase C (PKC). PKG1alpha became phosphorylated in HEK-293 cells stimulated with PMA and also in vitro using purified components. PKC-dependent phosphorylation was found to activate PKG as measured by phosphorylation of vasodilator-stimulated phosphoprotein, and by in vitro kinase assays. Although there are 11 potential PKC substrate recognition sites in PKG1alpha, threonine 58 was examined due to its proximity to the pseudosubstrate domain. Antibodies generated against the phosphorylated form of this region were used to demonstrate phosphorylation in response to PMA treatment of the cells with kinetics similar to vasodilator-stimulated phosphoprotein phosphorylation. A phospho-mimetic mutation at this site (T58E) generated a partially activated PKG that was more sensitive to cGMP levels. A phospho-null mutation (T58A) revealed that this residue is important but not sufficient for PKG activation by PKC. Taken together, these findings outline a novel signal transduction pathway that links PKC stimulation with cyclic nucleotide-independent activation of PKG.
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PMID:Activation of cGMP-dependent protein kinase by protein kinase C. 1260 95

Protein kinase D (PKD) has been established as a negative modulator of the c-Jun N-terminal kinase (JNK) signaling pathway. We previously demonstrated that induced expression of constitutively active PKD (PKD-S744/748E) that mimics phosphorylation by PKC is sufficient to attenuate epidermal growth factor (EGF) stimulated c-Jun Ser 63 phosphorylation, a natural substrate of JNK, in HEK 293 cells. Because the JNK pathway has been implicated in sustaining both lung and pancreatic cancerous phenotypes, we have utilized stable inducible expression of PKD-S744/748E in clones of A549 non-small cell lung cancer (NSCLC) and Panc1, pancreatic cancer cells to determine its effects on JNK signaling in the context of the cancerous phenotype. In contrast to HEK 293 cells, induced expression of PKD-S744/748E in either A549 NSCLC or Panc1 cells failed to attenuate EGF dependent phosphorylation of c-Jun, indicating that EGF stimulated JNK phosphorylation of c-Jun is uncoupled from PKD suppression in these cancer cells.
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PMID:Uncoupling of protein kinase D from suppression of EGF-dependent c-Jun phosphorylation in cancer cells. 1264 40

The voltage-gated potassium channel Kv1.1 contains phosphorylation sites for protein kinase A (PKA) and protein kinase C (PKC). To study Kv1.1 protein expression and cellular distribution in regard to its level of phosphorylation, the effects of PKA and PKC activation on Kv1.1 were investigated in HEK 293 cells stably transfected with Kv1.1 (HEK 293/1). Without kinase activation, HEK 293/1 cells carry unphosphorylated Kv1.1 protein in the plasma membranes, whereas large amounts of phosphorylated and unphosphorylated Kv1.1 protein were located intracellularly. Activation of PKA resulted in phosphorylation of intracellular Kv1.1 protein, followed by a rapid translocation of Kv1.1 into the plasma membrane. Patch-clamp analysis revealed an increase in current amplitude upon PKA activation and demonstrated differences in the voltage dependence of current activation between unphosphorylated and phosphorylated Kv1.1 channels. In contrast to PKA, even prolonged activation of PKC did not lead to direct phosphorylation of Kv1.1, but induced Kv1.1 protein synthesis. Thus, protein kinases have direct and indirect effects on the functional expression of voltage-gated potassium channels. Our data suggest that the synergistic action of protein kinases may play an important role in the fine-tuning of Kv channel function.
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PMID:Analysis of phosphorylation-dependent modulation of Kv1.1 potassium channels. 1268 81

1. The rabbit AT(1) receptor (AT(1)R) for angiotensin II (A(II)) has been conjugated to the yellow fluorescent protein (YFP) in order to establish the pharmacological profile of such a fusion protein and to facilitate the study of ligand-induced regulation. 2. A(II) bound AT(1)R-YFP (K(D) 8.1 nM in transiently transfected cells) and stimulated HEK 293 cells expressing the fusion protein at concentration ranges similar to the ones that stimulate the contraction of the isolated rabbit aorta. Antagonists found to be insurmountable in the latter assay (candesartan and EXP-3174 being the most extreme cases) were also insurmountable in the phospholipase A(2) assay applied to cells expressing AT(1)R-YFP, whereas losartan appeared to be surmountable in both assays. 3. Cells expressing AT(1)R-YFP exhibited a membrane-associated fluorescence that was partly and reversibly translocated into intracellular structures upon A(II) stimulation (confocal microscopy); the nonpeptide antagonists were not active in this respect, but prevented the effect of the agonist. 4. A(II) treatment increased the quantity of the fusion protein in cells, and phorbol 12-myristate 13-acetate (PMA) treatment even more so (immunoblot, confocal microscopy) but, unlike the agonist, the latter drug did not induce receptor endocytosis. A protein kinase C (PKC) inhibitor prevented the effect of either A(II) or PMA on AT(1)R-YFP abundance. 5. The conjugate AT(1)R-YFP retains the pharmacological properties of the parent rabbit AT(1)R. Agonist-induced downregulation was not documented using this system; to the contrary, we have observed a PKC-mediated increased expression AT(1)R-YFP likely to be the result of a decreased breakdown rate of the fusion protein.
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PMID:Characterization of a fluorescent conjugate of the rabbit angiotensin AT(1) receptor. 1272 Nov 5

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