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)

Inhibition of protein kinase C (PKC) is discussed as a new approach for overcoming multidrug resistance (MDR) in cancer chemotherapy. For evaluation of this concept we applied the bisindolylmaleimide GF 109203X, which shows a highly selective inhibition of PKC isozymes alpha, beta 1, beta 2, gamma, delta and epsilon in vitro. The efficacy of this compound in modulation of MDR was examined using several P-glycoprotein (P-gp)-overexpressing cell lines including a MDR1-transfected HeLa clone, and was compared with the activities of dexniguldipine-HCI (DNIG) and dexverapamil-HC1 (DVER), both of which essentially act via binding to P-gp. As PKC alpha has been suggested to play a major role in P-gp-mediated MDR, cell lines exhibiting different expression levels of this PKC isozyme were chosen. On crude PKC preparations or in a cellular assay using a cfos(-711)CAT-transfected NIH 3T3 clone, the inhibitory qualities of the bisindolylmaleimide at submicromolar concentrations were demonstrated. At up 1 microM final concentrations of the PKC inhibitor GF 109203X, a concentration at which many PKC isozymes should be blocked substantially, no cytotoxic or MDR-reversing effects whatsoever were seen, as monitored by 72 h tetrazolium-based colorimetric MTT assays or a 90 min rhodamine 123 accumulation assay. Moreover, depletion of PKC alpha by phorbol ester in HeLa-MDR1 transfectants had no influence on rhodamine 123 accumulation after 24 or 48 h. MDR reversal activity of GF 109203X was seen at higher final drug concentrations, however. Remarkably, [3H]vinblastine-sulphate binding competition experiments using P-gp-containing crude membrane preparations demonstrated similar dose dependencies as found for MDR reversion by the three modulators, i.e. decreasing efficacy in the series dexniguldipine-HCl > dexverapamil-HCl > GF 109203X. Similar interaction with the P-gp in the micromolar concentration range was revealed by competition of GF 109203X with photoincorporation of [3H]azidopine into P-gp-containing crude membrane preparations. No significant effect of the PKC inhibitor on MDR1 expression was seen, which was examined by cDNA-PCR. Thus, the bisindolylmaleimide GF 109203X probably influences MDR mostly via direct binding to P-gp. Our work identifies the bisindolylmaleimide GF 109203X as a new type of drug interacting with P-gp directly, but does not support the concept of a major contribution of PKC to a P-gp-associated MDR, at least using the particular cellular model systems and the selective, albeit general, PKC inhibitor GF 109203X.
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PMID:Effects of the selective bisindolylmaleimide protein kinase C inhibitor GF 109203X on P-glycoprotein-mediated multidrug resistance. 882 55

1. The effect of angiotension II (Ang) on delayed rectifier K+ current (IK(V)) was studied in isolated rabbit portal vein smooth muscle cells using standard whole-cell voltage clamp technique. The effect of 100 nM Ang on macroscopic, whole-cell IK(V) was assessed in myocytes dialysed with 10 mM BAPTA, 5 mM ATP and 1 mM GTP either at room temperature or at 30 degrees C. 2. Application of Ang caused a decline in IK(V) which was reversed upon washout of the drug. Tail current recorded after 250 ms pulses to +30 mV and repolarization to -40 mV was reduced from 3.9 +/- 0.7 to 2.5 +/- 0.5 pA pF-1 at 20 degrees C (n = 6) and from 4.5 +/- 0.5 to 3.13 +/- 0.4 pA pF-1 at 30 degrees C(n = 17). 3. Ang had no effect on outward current in the presence of an AT1 selective antagonist, losartan (1 microM), which alone had no direct effect on the amplitude of IK(V). Substitution of extracellular Ca2+ with Mg2+ in the presence of 10 microM intracellular BAPTA did not affect the suppression of IK(V) by Ang. 4. Ang induced a decrease in time constant for the rapid phase of inactivation of the macroscopic current (tau 1 reduced from 377 +/- 32 to 245 +/- 11 ms; tau 2 unchanged, n = 17). Neither the voltage dependence of activation nor inactivation were affected by Ang. 5. The inhibition of IK(V) by Ang was abolished by intracellular dialysis with the selective PKC inhibitors, calphostin C (1 microM) and chelerythrine (50 microM). These data provide strong evidence that the decline in IK(V) due to Ang treatment is due to PKC activation. 6. The pattern of expression of PKC isoforms was examined in rabbit portal vein using isoenzyme-specific antibodies: alpha, epsilon and zeta isoenzymes were detected, but beta, gamma, delta and eta isoenzymes were not. 7. The lack of requirement for Ca2+, as well as the sensitivity of the Ang response to chelerythrine, suggest the involvement of the Ca(2+)-independent PKC isoenzyme epsilon in the signal transduction pathway responsible for IK(V) inhibition by Ang.
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PMID:Angiotensin II activation of protein kinase C decreases delayed rectifier K+ current in rabbit vascular myocytes. 888 76

Effects of thrombin on brain cells, including change of neurite outgrowth and astrocyte shape, are described, but the molecular mechanisms are unclear. We investigated the effects of human alpha-thrombin and a six amino acid thrombin receptor activating peptide (TRAP-6, SFLLRN) on [Ca2+]i, phosphoinositide hydrolysis, and protein kinase C in rat glioma C6 cells. Stimulation of C6 cells with both alpha-thrombin and TRAP-6 resulted in [Ca2+]i mobilization, [3H]Inositol phosphate response, and enhanced immunoreactivity of the protein kinase C (PKC) isoenzymes alpha, beta, gamma, delta, and epsilon. Results suggest that alpha-thrombin and TRAP-6 activate at least partially the same intracellular signaling pathways in rat glioma C6 cells, which is evidence for involvement of "tethered ligand" receptor in thrombin induced signaling in glioma C6 cells.
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PMID:Signaling effects of alpha-thrombin and SFLLRN in rat glioma C6 cells. 897 98

A series of balanol analogs in which the perhydroazepine ring and the p-hydroxybenzamide moiety were combined into an acyclic linked unit have been prepared and evaluated for their inhibitory properties against the serine/threonine kinase PKC. Several low-micromolar to low-nanomolar inhibitors of the alpha, beta I, beta II, gamma, delta, epsilon and eta PKC isozymes were prepared. In general, these acyclic balanol analogs were found to be highly selective for PKC over the serine/threonine kinase PKA. The type and number of atoms linking the benzophenone ester to the p-hydroxyphenyl group necessary for optimal PKC inhibition were investigated. The most potent compounds contained a three-carbon linker in which the carboxamide moiety of balanol had been replaced by a methylene group. The effect of placing substituents on the three-carbon chain was also investigated. The preferred compounds contained either a 2-benzenesulfonamido (6b) or a 1-methyl (21b) substituent. The preferred compounds 6b and 21b were tested against a panel of serine/threonine kinases and found to be highly selective for PKC. The more active enantiomer of 6b, (S)-12b, was 3-10-fold more active than the R-enantiomer against the PKC isozymes. The effect of making the analogs more rigid by making the three-carbon chain part of a five-membered ring, but with retention of the methylene replacement for the carboxamide moiety, led to potent PKC inhibitors including anti-substituted pyrrolidine analog 35b and the most potent PKC inhibitor in the series, anti-substituted cyclopentane analog 29b. The anti cyclopentane analog 29b, was a low-micromolar inhibitor of the PMA-induced superoxide burst in neutrophils, and its carboxylic ester was a high-nanomolar inhibitor of neutrophils. Finally esterification of 21b, (S)-12b, and 35b turned these potent PKC inhibitors into low-micromolar inhibitors of neutrophils.
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PMID:Synthesis and protein kinase C inhibitory activities of acyclic balanol analogs that are highly selective for protein kinase C over protein kinase A. 897 50

PKC isotypes were studied in rat cortical synaptosomes. Resting synaptosomes, subfractionated into cytosolic and particulate (Triton X100-soluble and insoluble) fractions, containing PKC beta 1, gamma, delta and epsilon isotypes but very little PKC beta 2 or alpha. PKC delta and epsilon were evenly distributed in the cytosolic and particulate fractions; PKC beta 1 was mainly in the cytosol (70%) and PKC gamma was primarily particulate (80%). Triton X-100 extracted most of the PKC delta and epsilon from the particulate fraction but only half of the PKC gamma, indicating PKC gamma association with the cytoskeleton. Following KC1 treatment (30 mM), both the classical PKC isotypes beta 1 and gamma shifted from the cytosolic to the particulate fraction, with PKC beta 1 moving specifically to the detergent insoluble fraction whereas PKC gamma appeared to move to both. It is concluded that PKC beta 1, gamma, delta, and epsilon isotypes can occur presynaptically and suggested that PKC beta 1 and gamma are directly involved in synaptic transmission. Apparent mol. wt changes in translocating forms may be related to phosphorylation and subsynaptosomal location.
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PMID:PKC in rat cortical synaptosomes: effects of depolarization. 905 4

This study investigated the immunostaining of protein kinase C (PKC) isoforms and amyloid precursor protein (APP) in rat brain cortex and determined alterations following an excitotoxic challenge in vivo. Cellular alterations in APP and PKC isoforms (alpha, beta, gamma, delta, epsilon, and zeta) following glutamate perfusion in the rat parietal cortex were compared with NaCl perfusion. In all animals, two histological zones could be defined consistently, a necrotic core and a boundary zone immediately adjacent to the core. Following glutamate and NaCl perfusion, cellular immunoreactivity to PKC isoforms and amino-terminal APP was significantly reduced within the necrotic core. Striking carboxy-terminal APP immunoreactivity was observed in some neurons remaining within the necrotic core. In the boundary of the glutamate lesion, the perikarya of most neurons were intensely immunoreactive to PKC alpha and beta. Furthermore, within the boundary zone, enhanced immunoreactivity within neuronal perikarya was observed to amino-terminal APP and, to a lesser extent, carboxy-terminal APP. Increased immunostaining of PKC alpha and beta and APP at the boundary zone was a consistent feature of intracortical glutamate perfusion and was not observed following NaCl perfusion. There were minimal alterations in PKC isoforms gamma, delta, epsilon, and zeta, in the boundary region following intracortical glutamate or NaCl perfusion. There was no astrocytic response, as detected by GFAP immunoreactivity, at the boundary zone. These findings indicate that there is a topographical relationship between cellular alterations of specific PKC isoforms and APP following an excitotoxic challenge in vivo.
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PMID:Intracortical glutamate perfusion in vivo induces cellular alterations in specific protein kinase C isoforms and amyloid precursor protein. 905 84

Downregulation of insulin receptor tyrosine kinase (IRK) activity yields to impaired insulin signalling and contributes to the pathogenesis of cellular insulin resistance. Activation of protein kinase C (PKC) by different agents is associated with an inhibition of IRK activity in various cell types. There is evidence that this effect on IRK activity might be mediated through phosphorylation of specific serine residues of the insulin receptor beta-subunit. Neither the domains of the IRK where inhibiting serine phosphorylation occurs nor the PKC isoform responsible for IRK inhibition have been identified. PKC consists of a family of at least 12 isoforms. The aim of the present study was to determine which PKC isoform might be capable of IRK inhibition. The human insulin receptor and the PKC isoforms alpha, beta 1, beta 2, gamma, delta, epsilon, eta, theta and zeta were overexpressed in human embryo kidney fibroblasts (HEK 293 cells) in order to answer this question. PKCs were activated by preincubation with the phorbolester (TPA) (10(-7) mol/l) following insulin stimulation of the cells. When the IRK was coexpressed with the PKC isoforms beta 1 and beta 2, a 50 +/- 15.7 and 45 +/- 10.1% inhibition of tyrosine autophosphorylation of IRK was observed while coexpression with the other isoforms did not significantly modify IRK autophosphorylation. The data suggest that the PKC isoforms beta 1 and beta 2 might be candidates for insulin receptor inhibition.
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PMID:Protein kinase C isoforms beta 1 and beta 2 inhibit the tyrosine kinase activity of the insulin receptor. 924 10

To examine whether multiple protein kinase C (PKC) isoforms could interact or crosstalk, phorbol ester-insensitive atypical PKC (aPKC) zeta isoform was overexpressed in NIH3T3 cells, and the cells were stimulated with phorbol ester to activate diacylglycerol-dependent conventional (cPKC) and novel PKC (nPKC) isoforms. Treatment of cells with phorbol ester which activates PKCalpha, gamma, delta, and epsilon isoforms in NIH3T3 cells significantly reduced proliferation of cells. Overexpression of aPKCzeta and subsequent phorbol ester treatment abolished phorbol ester-induced reduction in cell proliferation. Overexpression of aPKCzeta also potentiated phorbol ester-induced mitogen-activated protein (MAP) kinase activation in a PKC-dependent manner. The effects of PKCzeta overexpression on proliferation and MAP kinase activation were proportional to the levels of aPKCzeta expression. Since aPKCzeta cannot be activated by phorbol ester, modulation of cell proliferation and MAP kinase activation by phorbol ester in aPKCzeta overexpressing cells might be due to the activation of cPKCs and/or nPKCs by phorbol ester. Thus, the results provide possible evidence for either direct or indirect crosstalk between PKC isoforms.
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PMID:Phorbol ester effects in atypical protein kinase C zeta overexpressing NIH3T3 cells: possible evidence for crosstalk between protein kinase C isoforms. 926 11

Jurkat T cells express a functional endopeptidase 24.11 that is involved in the regulation of T cell activation. We have analyzed the effect of ectopic CD10 expression in mutant Jurkat cell clones that fail to express CD10 and, unlike wild-type cells, are resistant to the growth-inhibitory effects of the protein kinase C activator, PMA. No differences in the expression of the mRNA encoding the alpha, beta, gamma, delta, epsilon, and zeta isoforms of PKC were found in parental vs. PMA-resistant Jurkat cells, ruling out the possibility that the defect could be accounted for by an altered expression of one of these isoforms. Phorbol ester-induced growth arrest was not due to apoptosis since PMA failed to trigger DNA fragmentation in parental and mutant Jurkat T cells. CD10 mRNA expression and activity were abrogated in four independent PMA-resistant Jurkat T cell clones compared to parental cells, whereas the activities of several other peptidases were unaffected. Transfection of one mutant clone with a functional endopeptidase 24.11 restored in a significant manner PMA-induced growth arrest in all the clones selected and tested, whereas transfection of an inactive form of endopeptidase 24.11 had no effect, demonstrating that the enzymatic activity of CD10 is critical in the mediation of the PMA growth arrest. The data presented here demonstrate that a functional CD10 is required for PMA-induced growth arrest in Jurkat cells and provide further evidence for a role of endopeptidase 24.11 in the regulation of tumor cell proliferation.
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PMID:Endopeptidase 24.11 (CD10/NEP) is required for phorbol ester-induced growth arrest in Jurkat T cells. 928 85

Considerable controversy surrounds the role of protein kinase C (PKC) in ischemic preconditioning (PC). Previous studies have used pharmacological agents and/or measured total myocardial PKC activity; however, no information is available regarding the effects of PC on individual isoforms in vivo. We performed a comprehensive evaluation (using Western immunoblotting) of the expression and subcellular distribution of all 11 currently known PKC isoforms in the heart of conscious rabbits subjected to four different ischemic PC protocols known to induce early and/or late PC (one, three, or six cycles of 4-minute coronary occlusion [4'O]/4-minute reperfusion [4'R]; four cycles of 5-minute occlusion [5'O]/10-minute reperfusion [10'R]). Ten PKC isoforms (alpha, beta1/beta2, gamma, delta, epsilon, zeta, eta, iota, lambda, and mu) were found to be expressed in the rabbit heart. Quantitative immunoblotting demonstrated that as a subgroup, conventional PKCs (cPKCs) are more abundant than novel PKCs (nPKCs) (1445 versus 313 pg PKC/microg tissue protein, respectively) and that PKC alpha is the predominant isoform among the cPKCs (alpha, beta1, beta2, and gamma), representing 51% of this subgroup, and PKC epsilon is the most abundant among the nPKCs (delta, epsilon, zeta, and eta), accounting for 62% of this subgroup. None of the ischemic PC protocols examined caused appreciable changes in total PKC activity, in the subcellular distribution of total PKC activity, or in the subcellular distribution of PKC isoforms alpha, beta1/beta2, gamma, delta, zeta, iota, lambda, and mu. In contrast, all PC protocols caused significant translocation of PKC epsilon and PKC eta isoforms from the cytosolic to the particulate fraction. The particulate fraction of PKC epsilon increased in a dose-dependent fashion with the number of occlusion/reperfusion cycles performed, from 35+/-2% in the control group to 43+/-2% after one 4'O/5-minute reperfusion (5'R) cycle (P<.05), 52+/-2% after three cycles (P<.05 versus one cycle), and 66+/-3% after six cycles (P<.05 versus three cycles). The particulate fraction of PKC epsilon also increased, after four 5'O/10'R cycles, to 50+/-3% (P<.05 versus control). In contrast to PKC epsilon, the translocation of PKC eta was independent of the number of occlusion/reperfusion cycles performed. The particulate fraction of PKC eta increased from 67+/-3% in the control group to 84+/-2% after one 4'O/5'R cycle (P<.05), 84+/-2% after three 4'O/4'R cycles (P<.05), 86+/-3% after six 4'O/4'R cycles (P<.05), and 83+/-2% after four 5'O/10'R cycles (P<.05). When expressed as a percentage of control values, the increases in the particulate fraction of isoform epsilon were greater than those of isoform eta. The effects of 4'O without reperfusion were similar to those of one cycle of 4'O/5'R, indicating that 5'R did not attenuate isoform translocation. This is the first study to demonstrate PKC translocation after ischemic PC in vivo. The results indicate that in the conscious rabbit, ischemic PC causes selective translocation of the epsilon and eta isoforms without demonstrable changes in total myocardial PKC activity, implying that measurements of total PKC activity are not sufficiently sensitive to detect the involvement of PKC in PC. The results are consistent with the concept that the epsilon and eta isozymes play an important role in the genesis of ischemic PC in the conscious rabbit.
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PMID:Ischemic preconditioning induces selective translocation of protein kinase C isoforms epsilon and eta in the heart of conscious rabbits without subcellular redistribution of total protein kinase C activity. 928 43

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