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

The effects of 4 beta-phorbol-12-myristate-13-acetate (PMA) and 1,2-sn-dioctanoylglycerol (DOCG) on the rate of labeling of phosphatidylcholine (PC) with (32P)phosphate and the rate of formation of (3H)phosphatidylethanol (PET) from PC labeled with (3H)myristic acid were investigated in vitro in minced placentae obtained from first trimester human pregnancies. Maximally effective concentrations of PMA (1 microM) or DOCG (125-250 microM) stimulate PC-labeling with (32P)phosphate along different time courses: responses to DOCG and PMA require 30 and 60 min, respectively. The early response to DOCG is attended by a rapid accumulation of 32P)PCDOCG followed by a decline from the peak value in the second 30 min. The PMA effect is accompanied by increased rate of formation of (32P)phosphatidic acid (PA). Importantly, the effects of PMA and DOCG on PC-labeling are additive and PMA does not have any effect on the labeling of PCDOCG. These findings indicate that PMA stimulates degradation and the attendant turnover of PC, whereas a greater part of the DOCG-effect comes from the stimulation of PC synthesis de novo. Consistent with this notion is the finding that PMA enhances the PC-selective phospholipase D activity (measured by the formation of PET) 2.4-fold, whereas the effect of DOCG is smaller (1.4-1.8-fold) and not additive with that of PMA. The results provide evidence for the presence of functional PC-cycle in the primordial human placenta. The cycle can be triggered by a single addition of PMA and to a lesser extent by DOCG. The smaller effect of DOCG may be related to its short lifetime in the tissue, which is sufficient, however, to stimulate the activity of the regulatory enzyme (CTP: choline cytidylyl transferase) of PC synthesis. Since the effect of PMA on PC-labeling is diminished by protein kinase C inhibitors, this enzyme appears to be involved in the stimulation of PC-cycle by DAG and its analogs.
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PMID:Phosphatidylcholine cycle: an intracellular signaling mechanism in the primordial human placenta. 904 56

Lymphocytes employ a complex assembly of signaling elements that have been organized on a spatiotemporal map to define their role in stimulating both proliferation and apoptosis. The antigen/major histocompatibility complex (MHC) initiates the sequence by organizing the assembly of an active T-cell receptor (TCR) complex responsible for transmitting information down various signaling cassettes (e.g., the IP3/Ca2+, DAG/PKC, ras/MAPK, and the PI 3-K pathways). It is proposed that CD28 may exert its costimulatory action by facilitating the assembly of an effective scaffold of signaling elements within the TCR complex. The absence of costimulation through CD28 seems to result in the assembly of a defective scaffold that reverses slowly and may thus account for the state of unresponsiveness responsible for peripheral T-cell tolerance. The signaling cassettes activated by the TCR and CD28 then engage cytosolic factors that transmit information into the nucleus to activate the genes that code for the IL-2 and Fas signaling pathways. The IL-2 and Fas receptors employ additional signaling cassettes (e.g., the JAK/STAT and the sphingomyelinase/ceramide pathways) to mediate their effects on proliferation and apoptosis, respectively. Information concerning these signaling systems is beginning to provide therapeutic strategies to manipulate the immune system to overcome human immunodeficiency virus (HIV) infection, autoimmune diseases, and graft rejection.
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PMID:Lymphocyte activation in health and disease. 909 51

1. Diacylglycerol (DAG; 10 microM), an activator of conventional and novel protein kinases C (cPKCs and nPKCs), induced Ca2+ sensitization of force in isolated intact and alpha-toxin-permeabilized femoral artery (FA) and portal vein (PV), and increased the phosphorylation of myosin light chain (MLC20) at the same peptides phosphorylated by myosin light chain kinase. 2. Ca2+ sensitization by DAG was specifically inhibited by a pseudosubstrate peptide inhibitor of cPKCs (PKC alpha(22-30) peptide; 50 microM). Similarly, GF 109203X (600 nM), an inhibitor of cPKCs and nPKCs, completely abolished Ca2+ sensitization by phorbol 12,13-dibutyrate (PDBu; 1 microM). In contrast, Ca2+ sensitization induced by the alpha1-adrenergic agonist phenylephrine (100 microM) was not inhibited by these inhibitors of cPKCs and nPKCs. 3. A pseudosubstrate peptide inhibitor of the atypical PKCs (aPKCs) PKC zeta(116-124) (50 microM) significantly (about 50%) inhibited the Ca2+ sensitization of force and MLC20 phosphorylation induced by 100 microM phenylephrine and by 300 microM arachidonic acid, but not that by DAG (10 microM) or PDBu (1 microM). 4. A phospholipase A2 (PLA2) inhibitor, ONO-RS-082 (10 microM), abolished the release of arachidonic acid and partially (by 40%) inhibited the Ca2+ sensitization induced by phenylephrine in FA smooth muscle. This effect was not additive to the inhibition observed with the aPKC inhibitor peptide, suggesting that arachidonic acid and aPKCs exert their effects via the same pathway, probably through activation of aPKC(s) by arachidonic acid. 5. Western blot analysis with antibodies to aPKCs revealed aPKCs zeta, lambda (or iota) and an unidentified 64 kDa protein. The distribution (cytosolic and particulate) of these proteins was not affected by PDBu (1 microM). 6. Our results are consistent with a significant role for atypical (or related) PKCs through a PLA2-arachidonic acid-aPKC pathway in agonist-induced Ca2+ sensitization, in parallel with a similar, but minor role of the DAG-cPKC cascade. The inability of the combination of the two (aPKC and cPKC) inhibitors to completely eliminate Ca2+ sensitization also suggests the presence of a third, still unidentified, pathway of this mechanism.
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PMID:Possible role of atypical protein kinase C activated by arachidonic acid in Ca2+ sensitization of rabbit smooth muscle. 909 36

The endothelins (ET-1, 2, and 3) constitute a family of 21 amino-acid peptides with potent biological activities. They are synthesized in several tissues, including the vascular endothelium (ET-1 exclusively) and smooth muscle cells. The production and release of endothelin is stimulated by many factors, hormonal and metabolic, and by growth factors, hypoxia, and shear stress. Released endothelin binds to the endothelin receptors ETA and ETB, the ETA receptors on vascular smooth muscle cells mediating vasoconstriction, and the ETB receptors on the endothelium linked to nitric oxide (NO) and prostacyclin release. The ETA receptors activate the PLC-IP3-DAG transduction pathway, which through an increase in cytosolic Ca2+ and protein kinase C (PKC) causes vasoconstriction and stimulation of vascular smooth muscle cell growth and proliferation. In the pathogenesis of vascular hypertrophy in hypertension, there is a complex interaction between endothelin, angiotensin II, alpha-adrenergic agonists, Ca2+, and other growth factors. In animal models of hypertension, endothelin causes vascular hypertrophy, more pronounced in deoxycorticosterone acetate (DOCA)-salt hypertension in the rat than in the spontaneously hypertensive rate. In humans there is an increase in the plasma concentration of endothelin in severe atherosclerotic disease, but not consistently in hypertension. Evidence for the role of endothelin in the vascular hypertrophy of human hypertension is scanty, but the development of nonpeptide and receptor subtype-selective antagonists will permit meaningful studies, including clinical trials of a new class of antihypertensive agents.
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PMID:Endothelin, vascular hypertrophy, and hypertension. 911 Jan 24

To test the hypothesis that activation of protein kinase C (PKC) is related to the interface between coexisting diacylglycerol- (DAG-) enriched and DAG-poor phases, the thermotropic phase behavior of the ternary mixtures dimyristoylphosphatidylcholine (DMPC)/dimyristoylphosphatidylserine (DMPS)/dioleoylglycerol (DO), DMPC/DMPS/1-palmitoyl-2-oleoylglycerol (PO), and DMPC/DMPS/dimyristoylglycerol (DM) was analyzed and compared with the ability of the lipid mixtures to support PKC activity. Differential scanning calorimetry (DSC) was used to monitor the gel-to-liquid crystalline phase transition as a function of the mole fraction of DO (chiDO), PO (chiPO), or DM (chiDM) in DMPC/DMPS (1:1) multilamellar vesicles (MLVs) and of chiDO in large unilamellar vesicles (LUVs). The addition of DAG at low mole fractions gave rise to the appearance of two or more overlapping transitions. The phase boundaries of the ternary mixtures deduced from the partial phase diagrams were chiDO = approximately 0.10 and approximately 0.3 for DMPC/DMPS/DO, chiPO = approximately 0.05 and approximately 0.4 for DMPC/DMPS/PO, and chiDM = approximately 0.025 and approximately 0.5-0.6 for DMPC/ DMPS/DM. Above these mole fractions of DAG, the transitions again became very sharp. The ability of the lipid mixtures to support activity of PKC alpha and PKC eta was examined below and above the gel-to-liquid crystalline phase transition. In the gel phase, PKC activity went through a maximum as a function of increasing mole fraction of each DAG and was restricted to lipid compositions in which coexisting phases were observed. Maximal activity decreased with increasing saturation of the DAG. In the fluid state, maximal PKC activity was shifted to higher DO mole fractions and the peak was much broader. Collectively, these data support a role for both the presence and nature of interface between compositionally distinct domains in activation of PKC.
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PMID:Activation of protein kinase C by coexisting diacylglycerol-enriched and diacylglycerol-poor lipid domains. 916 85

1. The synthesis and secretion of aldosterone in the adrenal zona glomerulosa in physiologic conditions is controlled by adrenocorticotropin (ACTH), angiotensin II (AII), and extracellular (K+). 2. ACTH effects on aldosterone output are explained by cyclic AMP-(cAMP)- and Ca(2+)-dependent mechanisms. 3. All effects on aldosterone secretion are initiated by an increase in Ca2+ influx through hormone-operated Ca2+ channels and G-protein- and phospholipase C-(PLC) dependent hydrolysis of phosphoinositides leading to the generation of inositol 1,4,5 trisphosphate (IP3) and DAG that induce intracellular Ca2+ release and PKC activation, respectively. 4. ACTH increases DAG formation with marginal or undetectable IP3 generation. The effect of ACTH on DAG levels is discussed. 5. The requirement of external Ca2+ in PLC activation and aldosterone secretion also is discussed.
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PMID:Recent progress in understanding aldosterone secretion. 918 96

Signal transduction in gastric and intestinal smooth muscle is mediated by receptors coupled via distinct G proteins to various effector enzymes, including PI-specific PLC-beta 1 and PLC-beta 3, and phosphatidylcholine (PC)-specific PLC, PLD and PLA2. Activation of these enzymes is different in circular and longitudinal muscle cells, generating Ca(2+)-mobilizing (IP3, AA, cADPR) and other (DAG) messengers responsible for the initial and sustained phases of contraction, respectively. IP3-dependent Ca2+ release occurs only in circular muscle. Ca2+ mobilization in longitudinal muscle involves a cascade initiated by agonist-induced transient activation of PLA2 and formation of AA, AA-dependent depolarization of the plasma membrane and opening of voltage-sensitive Ca2+ channels. The influx of Ca2+ induces Ca2+ release by activating sarcoplasmic ryanodine receptor/Ca2+ channel and stimulates cADPR formation which enhances Ca(2+)-induced Ca2+ release. The initial [Ca2+]i transient in both muscle cell types results in Ca2+/calmodulin-dependent activation of MLC kinase, phosphorylation of MLC20 and interaction of actin and myosin. The sustained phase is mediated by a Ca(2+)-independent isoform of PKC, PKC-epsilon DAG for this process is generated by PLC- and PLD-mediated hydrolysis of PC. Relaxation is mediated by cAMP-and/or cGMP-dependent protein kinase which inhibit the initial [Ca2+]i transient and reduce the sensitivity of MLC kinase to [Ca2+]i. Relaxation induced by the main neurotransmitters, VIP and PACAP, involves two cascades, one of which reflects activation of adenylyl cyclase. A distinct cascade involves G-protein-dependent stimulation of Ca2+ influx leading to Ca2+/calmodulin-dependent activation of a constitutive eNOS in muscle cells; the generation of NO activates soluble guanylyl cyclase. The resultant activation of PKA and PKG is jointly responsible for muscle relaxation.
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PMID:Signal transduction in gastrointestinal smooth muscle. 921 27

Phospholipase C-beta (PLC-beta) signalling via protein kinase C (PKC) has been recognized as a major route by which stimuli such as alpha1-adrenergic agonists, endothelin-1 (ET-1) and angiotensin II (Ang II) induce hypertrophy of myocytes. The goal of this study was to evaluate the role of phospholipase D (PLD) in contributing to the formation of the PKC activator 1,2-diacylglycerol (1,2-DAG) and to study the mechanism(s) of PLD activation by agonists. Stimulation of serum-free cultured neonatal rat cardiomyocytes with ET-1 (10(-8)M), phenylephrine (PHE, 10(-5)M) or Ang II (10(-7)M) resulted in a rapid (0-10 min) activation of PLC-beta to an extent (ET-1>PHE>Ang II) that correlated with the magnitude of stimulation of protein synthesis ([3H]leucine incorporation into protein) measured after 24 h. Phorbol 12-myristate 13-acetate (PMA, 10(-6)M) and ET-1 were equipotent in stimulating protein synthesis. ET-1 and PMA, but not PHE and Ang II stimulated [3H]choline formation from labelled PtdCho after a lag-phase of about 10 min. That this [3H]choline formation was due to the action of PLD was confirmed by measurement of phosphatidylgroup-transfer from cellular [14C]palmitoyl-phosphatidylcholine to exogenous ethanol. ET-1 and PHE, to much lesser extent, produced a rapid (0-5 min) translocation of PKC- immunoreactivity from the cytosol to the membrane fraction, whereas no intracellular redistribution of PKC-alpha, -delta and -xi immunoreactivities was observed. PMA caused translocation of PKC-alpha, PKC-epsilon as well as PKC-delta. Cellular redistribution of PKC activity measured by [32P]-incorporation into histone III-S was not observed with ET-1 and PHE, but only with PMA stimulation. Down-regulation of PKC isozymes by 24 h pretreatment of cells with PMA or blockade of PKC by chelerythrine (10(-4)M) inhibited ET-1 and PMA stimulated [3H]choline production. Staurosporine (10(-6)M) had, however, no effect. In conclusion, the results indicate that in serum-free cultured cardiomyocytes, ET-1 initially activates PLC-beta and after a lag-phase PLD, whereas PHE and Ang II activate only PLC-beta. PLC-beta stimulated by ET-1, may cross-talk with PLD via translocation of PKC-epsilon. These signals are possibly linked to the hypertrophic response.
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PMID:Cross-talk between receptor-mediated phospholipase C-beta and D via protein kinase C as intracellular signal possibly leading to hypertrophy in serum-free cultured cardiomyocytes. 929 77

Diacylglycerol containing 15-hydroxyeicosatrienoic acid (15-HETrE-DAG) was biosynthesized and examined for modulation of epidermal protein kinase C (PKC) activity. 15-HETrE-DAG competitively inhibited diolein-activated total PKC activity in a dose-dependent manner and further, selectively inhibited epidermal PKC-beta activity.
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PMID:A novel 15-hydroxyeicosatrienoic acid-substituted diacylglycerol (15-HETrE-DAG) selectively inhibits epidermal protein kinase C-beta. 942 Nov 97

Staurosporine, a microbial alkaloid known as a potent though non specific PKC inhibitor, enhances the production of superoxide anion (respiratory burst) of human polymorphonuclear leukocytes (PMN) stimulated by chemoattractants such as f-Met-Leu-Phe (fMLP). To gain insights into the mechanisms of this priming, we analysed staurosporine effects on formation of second messengers issued from phospholipase D (PLD), i.e., phosphatidic acid (PA) and its dephosphorylated form, diglycerides (DG). PA and DG were measured by two methods, in mass and after the labelling of PMN with a phosphatidylcholine precursor, [3H]-1-O-alkyl-2-lyso-3-phosphatidylcholine. Treatment of labelled PMN with low concentrations of staurosporine (12.5 and 50 nM) which prime respiratory burst had no significant effect on basal amounts of tritiated PA and DG, but potentiated fMLP-mediated formation of [3H]PA and phosphatidylethanol (PEt) pointing to a priming of PLD activity. PA mass in resting PMN increased (approximately 80 +/- 7%) in the presence of high drug concentrations only (250-500 nM), with no change in basal DAG mass. Low staurosporine concentrations (6.25-25 nM) markedly potentiated PA mass formation induced by fMLP and positive correlation (R = 0.95) was found between enhanced superoxide formation and generation of PA but not DG. Furthermore, cytochalasin B, which is known to prime PA production induced by fMLP, synergised the priming of respiratory burst by staurosporine, which further suggests a functional role of PA. In contrast to staurosporine, the more selective PKC inhibitor GF109203X neither stimulated PLD nor primed fMLP-induced PLD or respiratory burst. These data indicate that priming of fMLP-mediated PMN respiratory burst by staurosporine correlates with PA formation. This priming may be linked to alteration of early signalling events upstream of PLD rather than to feedback inhibition of PKC.
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PMID:Priming of phosphatidic acid production by staurosporine in f-Met-Leu-Phe-stimulated human neutrophils--correlation with respiratory burst. 948 87


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