EC:3.1.4.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

sn-1,2-Diacylglycerol (DAG) mass and translocation of protein kinase C alpha and beta to a membrane fraction increased approximately 7 min after insemination of Xenopus laevis eggs. The DAG mass increase of 48 pmol (from 62 to 110 pmol/cell) was greater than that for inositol 1,4,5-trisphosphate (IP3; an increase of approximately 170 fmol or approximately 280-fold smaller than the DAG increase), and DAG peaks approximately 5 min after IP3. Choline mass (a measure of phosphatidyl choline-specific phospholipase D) also peaked before DAG and the choline increase (134 pmol/cell) was greater than that of DAG. There was no detectable change in phosphocholine mass (a measure of phosphatidylcholine-specific phospholipase C). During first cleavage, DAG decreased, PKC translocation was low, and choline increased and peaked (whereas published work shows an increase in IP3 mass). Artificial elevation of intracellular calcium ([Ca2+]i) increased DAG levels but prevention of the [Ca2+]i increase after fertilization did not block DAG production. Thus, sperm stimulate production of DAG and choline through [Ca2+]i-independent and [Ca2+]i-dependent paths.
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PMID:sn-1,2-diacylglycerol and choline increase after fertilization in Xenopus laevis. 924 52

In glomerular endothelial cells, extracellular ATP stimulates a phospholipase C with subsequent hydrolysis of polyphosphoinositides and an increase in cytosolic free Ca2+ concentration ([Ca2+]i). Short-term (30 min) pretreatment of endothelial cells with 12-O-tetradecanoylphorbol 13-acetate (TPA), a potent activator of protein kinase C (PKC), decreases the ATP-stimulated phosphoinositide degradation and Ca2+ mobilization. However, this inhibition was lost after incubating the cells for four hours with TPA. Longer-term pretreatment (10 to 48 hr) even potentiated ATP-induced phosphoinositide breakdown and Ca2+ mobilization. In addition, pretreating the cells for 30 minutes with the specific PKC inhibitor Ro 31-8220 dose-dependently increased ATP-stimulated phosphoinositide hydrolysis, thus clearly indicating a regulatory role for PKC in the inositol lipid signaling pathway in glomerular endothelial cells. By using specific antibodies recognizing the different PKC isoenzymes, it is observed that glomerular endothelial cells express five isoenzymes: PKC-alpha, -delta, -epsilon, -zeta and -theta. No PKC-beta, -gamma, -eta and -mu isoenzymes were detected. On exposure to TPA, a complete depletion of PKC-alpha is observed within four hours. In contrast, PKC-epsilon was more resistant to phorbol ester, and even after 48 hours of TPA treatment, only 60% of PKC-epsilon was down-regulated. PKC-theta decreased very slowly from the cytosol (47% left after 24 hr of phorbol ester treatment) and translocated to the Triton X100-insoluble fraction. Moreover, PKC-delta and PKC-zeta were not significantly affected by 48 hours of phorbol ester incubation. Thus, only PKC-alpha is depleted with a kinetic that corresponds to the loss of feedback inhibition of ATP-stimulated phosphoinositide turnover. In the next step, [Ca2+]i changes were measured in single cells loaded with Fura-2 after microinjection of neutralizing PKC isoenzyme-specific antibodies. Injection of antibodies specific for PKC-alpha potently increased Ca2+ mobilization in response to ATP stimulation when compared to cells injected with buffer only or antibodies specific for PKC-epsilon. These results provide evidence that PKC-alpha mediates feedback inhibition of ATP-stimulated phosphoinositide hydrolysis in glomerular endothelial cells.
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PMID:Feedback regulation of extracellular ATP-stimulated phosphoinositide hydrolysis by protein kinase C-alpha in bovine glomerular endothelial cells. 926 87

Our goals were to identify the isoforms of protein kinase C (PKC) present in primary cultures of canine pulmonary artery smooth muscle cells (PASMCs) and to determine whether angiotensin II (ANG II) triggers translocation of specific PKC isoforms to discreet intracellular locations. Isoform-specific antibodies and Western blot analysis were utilized to identify the isoforms of PKC in PASMCs. Indirect immunofluorescence and confocal microscopy were used to examine the subcellular distribution of PKC isoforms. Inositol phosphate production was used to assess phospholipase C activation, and fura 2 was utilized to monitor intracellular Ca2+ concentration in response to ANG II. Six isoforms (alpha, delta, epsilon, zeta, iota/lambda, and mu) of PKC were identified by Western blot analysis. Immunolocalization of 5 isoforms (alpha, delta, zeta, iota/lambda, and mu) revealed a unique pattern of staining for each individual isoform. ANG II caused translocation of PKC-alpha from the cytosol to the nuclear envelope and of PKC-delta to the myofilaments. In contrast, cytosolic PKC-zeta did not translocate, but nuclear PKC-zeta was upregulated. Translocation of PKC-alpha and PKC-delta and upregulation of PKC-zeta in response to ANG II were blocked by the ANG II type 1-receptor antagonist losartan. In addition, ANG II stimulated inositol phosphate production and intracellular Ca2+ concentration oscillations, which were blocked by losartan. Thus activation of ANG II type 1 receptors triggers the phosphoinositide signaling cascade, resulting in translocation or upregulation of specific PKC isoforms at discreet intracellular sites. The alpha and zeta isoforms may act to regulate nuclear events, whereas PKC-delta may be involved in modulating contraction via actions on the myofilaments.
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PMID:Intracellular translocation of PKC isoforms in canine pulmonary artery smooth muscle cells by ANG II. 948 14

1. Extracellular adenosine triphosphate (ATP) is mitogenic for vascular smooth muscle cells (VSMC) and stimulates several events that are important for cell proliferation: DNA synthesis, protein synthesis, increase of cell number, immediate early genes, cell-cycle progression, and tyrosine phosphorylation. 2. Receptor characterization indicates mitogenic effects of both P2U and P2Y receptors. The P2X receptor is lost in cultured VSMC and is not involved. Several related biological substances such as UTP, ITP, GTP, AP4A, ADP, and UDP are also mitogenic. 3. Signal transduction is mediated via Gq-proteins, phospholipase C beta, phospholipase D, diacyl glycerol, protein kinase C alpha, delta, Raf-1, MEK, and MAPK. 4. ATP acts synergistically with polypeptide growth factors (PDGF, bFGF, IGF-1, EGF, insulin) and growth factors acting via G-protein-coupled receptors (noradrenaline, neuropeptide Y, 5-hydroxytryptamine, angiotensin II, endothelin-1). 5. The mitogenic effects have been demonstrated in rat, porcine, and bovine VSMC and cells from human coronary arteries, aorta, and subcutaneous arteries and veins. 6. The trophic effects on VSMC and the abundant sources for extracellular ATP in the vessel wall make a pathophysiological role probable in the development of atherosclerosis, neointima-formation after angioplasty, and possibly hypertension.
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PMID:Extracellular ATP: a growth factor for vascular smooth muscle cells. 959 70

Carbachol-stimulated insulin release in the RINm5F cell is associated with elevation of the cytosolic Ca2+ concentration ([Ca2+]i) through mobilization of Ca2+ from thapsigargin-sensitive intracellular stores and with the generation of diacylglycerol (DAG). Thus carbachol activates phospholipase C, and this was thought to be the means by which it stimulates insulin secretion. However, when the elevation of [Ca2+]i was blocked by thapsigargin, the effect of carbachol to stimulate insulin release was unchanged. Thus the effect of carbachol to increase [Ca2+]i was dissociated from the stimulation of release. When the role of protein kinase C (PKC) was examined, carbachol-stimulated insulin release was found to be unaffected by phorbol ester-induced downregulation of PKC, using 12-O-tetradecanoylphorbol-13-acetate (TPA), and by the PKC inhibitors staurosporine, bisindolylmaleimide, and 1-O-hexadecyl-2-O-methylglycerol (AMG-C16). These treatments abolished the stimulation of release by TPA. Thus the carbachol activation of PKC appeared also to be dissociated from the stimulation of insulin release. However, when the activation of several different PKC isozymes was studied, an atypical PKC isozyme, zeta, was found to be translocated by carbachol. By Western blotting analysis, carbachol selectively translocated the conventional PKC isozymes alpha and beta (the activation of which is dependent on Ca2+ and DAG) from the cytosol to the membrane. Carbachol also translocated the atypical PKC isozyme zeta, which is insensitive to Ca2+, DAG, and phorbol esters. The PKC inhibitors staurosporine, bisindolylmaleimide, and AMG-C16 blocked the stimulated translocation of PKC-alpha and -beta, but not that of PKC-zeta. Prolonged treatment of the cells with TPA downregulated PKC-alpha and -beta, but not PKC-zeta. Under all these conditions, carbachol-stimulated insulin release was unaffected. However, a pseudosubstrate peptide inhibitor specific for PKC-zeta inhibited the translocation of PKC-zeta and 70% of the carbachol-stimulated insulin secretion. The data indicate that carbachol-stimulated insulin release in RINm5F cells is mediated to a large degree by the activation of the atypical PKC isozyme zeta.
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PMID:Atypical protein kinase C isozyme zeta mediates carbachol-stimulated insulin secretion in RINm5F cells. 960 67

We previously reported that there is a developmental increase in surfactant secretion in response to P2Y2 purinoceptor agonists. UTP does not stimulate secretion in type II cells from 1- or 2-day-old rats; there is a small response to UTP in cells from 4-day-old animals, and the response increases with increasing age thereafter. Second messenger formation in response to P2Y2 agonists has a similar developmental pattern. We have investigated whether the failure to respond to P2Y2 agonists is due to a deficiency in the P2Y2 receptor or in downstream signaling factors. We compared type II cells from adult and 1- to 2-day-old rats with respect to expression of the P2Y2 receptor gene and the levels of phospholipase C-beta (PLC-beta) and protein kinase C (PKC) isomers and of the alpha-subunit of the GTP-binding protein Gq. We measured gene expression by reverse transcriptase-polymerase chain reaction and protein levels by immunoblotting. We identified PKC-alpha, -betaI, -betaII, -delta, -eta, -zeta, -theta, and -mu, PLC-beta3, and Gqalpha in adult and newborn type II cells. PKC-epsilon, -gamma, and -lambda and PLC-beta1, -beta2, and -beta4 were not present in adult or newborn type II cells. Expression of the P2Y2 receptor gene was essentially the same in newborn and adult cells. However, the levels of PKC-alpha, -betaI, -betaII, and -zeta in newborn type II cells were only 43-57% those of adult cells. The level of PKC-theta also tended to be lower in the newborn cells. There was little difference between newborn and adult type II cells in the levels of PKC-delta, -eta, and -mu, PLC-beta3, and Gqalpha. These data suggest that the lack of response of early newborn type II cells to P2Y2 agonists is not due to a lack of expression of the receptor gene but possibly to insufficient amounts of one or more of the alpha, betaI, betaII, or zeta PKC isoforms.
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PMID:PKC isoforms and other signaling proteins involved in surfactant secretion in developing rat type II cells. 960 28

Although the G protein betagamma dimer is an important mediator in cell signaling, the mechanisms regulating its activity have not been widely investigated. The gamma12 subunit is a known substrate for protein kinase C, suggesting phosphorylation as a potential regulatory mechanism. Therefore, recombinant beta1 gamma12 dimers were overexpressed using the baculovirus/Sf9 insect cell system, purified, and phosphorylated stoichiometrically with protein kinase C alpha. Their ability to support coupling of the Gi1 alpha subunit to the A1 adenosine receptor and to activate type II adenylyl cyclase or phospholipase C-beta was examined. Phosphorylation of the beta1 gamma12 dimer increased its potency in the receptor coupling assay from 6.4 to 1 nM, changed the Kact for stimulation of type II adenylyl cyclase from 14 to 37 nM, and decreased its maximal efficacy by 50%. In contrast, phosphorylation of the dimer had no effect on its ability to activate phospholipase C-beta. The native beta1gamma10 dimer, which has 4 similar amino acids in the phosphorylation site at the N terminus, was not phosphorylated by protein kinase C alpha. Creation of a phosphorylation site in the N terminus of the protein (Gly4 --> Lys) resulted in a beta1 gamma10G4K dimer which could be phosphorylated. The activities of this beta gamma dimer were similar to those of the phosphorylated beta1 gamma12 dimer. Thus, phosphorylation of the beta1 gamma12 dimer on the gamma subunit with protein kinase C alpha regulates its activity in an effector-specific fashion. Because the gamma12 subunit is widely expressed, phosphorylation may be an important mechanism for integration of the multiple signals generated by receptor activation.
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PMID:Phosphorylation of the G protein gamma12 subunit regulates effector specificity. 970 36

Troglitazone and pioglitazone, antidiabetic thiazolidinediones, are known to improve insulin resistance. However, the effect of these drugs on platelet aggregation remains unclear. The chemical structure of troglitazone contains vitamin E. Accordingly, we studied the effect of troglitazone, pioglitazone, and vitamin E on thrombin-induced platelet aggregation, metabolism of phosphoinositide, protein phosphorylation, protein kinase C (PKC)-alpha and -beta, and phosphatidylinositol (PI) 3-kinase activation in vitro in human platelets. Maximum platelet aggregation by ADP, collagen, and thrombin decreased in the presence of 0.1-1 micromol/l troglitazone and 500 nmol/l vitamin E for 60 min compared with controls. However, pioglitazone did not inhibit ADP-, collagen-, or thrombin-induced platelet aggregation. Pretreatment with troglitazone and vitamin E, but not with pioglitazone, resulted in decreases in thrombin-induced phosphatidic acid production, hydrolysis of phosphatidylinositol 4,5-bisphosphate by phospholipase C, and 47-kDa protein phosphorylation. Thrombin-induced PKC-alpha and -beta activation in membrane fraction was suppressed by pretreatment with troglitazone and vitamin E, but not with pioglitazone. Separately, troglitazone and pioglitazone stimulated PI 3-kinase activity, but thrombin-induced PI 3-kinase activation was suppressed by pretreatment with troglitazone and pioglitazone for 60 min. These results suggest that troglitazone and vitamin E, but not pioglitazone, have a potent inhibitory effect on platelet aggregation via suppression of the thrombin-induced activation of phosphoinositide signaling in human platelets. Finally, the chemical structure of vitamin E may contribute to the inhibitory effect of troglitazone on platelet aggregation in human platelets.
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PMID:Differential effect of the antidiabetic thiazolidinediones troglitazone and pioglitazone on human platelet aggregation mechanism. 972 40

It is well established that an independent inositide cycle is present within the nucleus, where it is involved in the control of cell proliferation and differentiation. Previous results have shown that when Swiss 3T3 cells are treated with insulin-like growth factor-I (IGF-I) a rapid and sustained increase in mass of diacylglycerol (DAG) occurs within the nuclei, accompanied by a decrease in the levels of both phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate. However, it is unclear whether or not other lipids could contribute to this prolonged rise in DAG levels. We now report that the IGF-I-dependent increase in nuclear DAG production can be inhibited by the specific phosphatidylinositol phospholipase C inhibitor 1-O-octadeyl-2-O-methyl-sn-glycero-3-phosphocholine or by neomycin sulfate but not by the purported phosphatidylcholine-phospholipase C specific inhibitor D609 or by inhibitors of phospholipase D-mediated DAG generation. Treatment of cells with 1-O-octadeyl-2-O-methyl-sn-glycero-3-phosphocholine or neomycin sulfate inhibited translocation of protein kinase C-alpha to the nucleus. Moreover, exposure of cells to 1-O-octadeyl-2-O-methyl-sn-glycero-3-phosphocholine, but not to D609, dramatically reduced the number of cells entering S-phase upon stimulation with IGF-I. These results suggest that the only phospholipase responsible for generation of nuclear DAG after IGF-I stimulation of 3T3 cells is PI-PLC. When this activity is inhibited, neither DAG rise is seen nor PKC-alpha translocation to the nucleus occurs. Furthermore, this PI-PLC activity appears to be essential for the G0/G1 to S-phase transition.
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PMID:Nuclear diacylglycerol produced by phosphoinositide-specific phospholipase C is responsible for nuclear translocation of protein kinase C-alpha. 979 87

1. In this study, the underlying mechanism of stimulation of respiratory burst by kazinol B, a natural isoprenylated flavan, in rat neutrophils in vitro was investigated. 2. Kazinol B concentration-dependently stimulated the superoxide anion (O2*-) generation, with a lag but transient activation profile, in neutrophils but not in a cell-free system. The maximum response (13.2+/-1.4 nmol O2*- 10 min(-1) per 10(6) cells) was observed at 10 microM kazinol B. 3. Pretreatment of neutrophils with phorbol 12-myristate 13-acetate (PMA) or formylmethionyl-leucyl-phenylalanine (fMLP) significantly enhanced the O2*- generation following the subsequent stimulation of cells with kazinol B. 4. Cells pretreated with EGTA or a protein kinase inhibitor staurosporine effectively attenuated the kazinol B-induced O2*- generation. However, a p38 mitogen-activated protein kinase (MAPK) inhibitor SB203580 and a phosphoinositide 3-kinase (PI3K) inhibitor wortmannin had no effect on the kazinol B-induced response. 5. Kazinol B significantly stimulated [Ca2+]i elevation in neutrophils, with a lag and slow rate of rise activation profile, and this response was attenuated by a phospholipase C (PLC) inhibitor U73122. Kazinol B also stimulated the inositol bis- and trisphosphate (IP2 and IP3) formation with a 1 min lag time. 6. The membrane-associated PKC-alpha and PKC-theta but not PKC-iota were increased following the stimulation of neutrophils with kazinol B. It was more rapid and sensitive in the activation of PKC-theta than PKC-alpha by kazinol B. Kazinol B partially inhibited the [3H]phorbol 12,13-dibutyrate ([3H]PDB) binding to the neutrophil cytosolic PKC. 7. Neither the cellular mass of phosphatidic acid (PA) and phosphatidylethanol (PEt), in the presence of ethanol, nor the protein tyrosine phosphorylation were stimulated by kazinol B. In addition, the kazinol B-induced O2*- generation remained relatively unchanged in cells pretreated with ethanol or a tyrosine kinase inhibitor genistein. 8. Collectively, these results indicate that the stimulation of the respiratory burst by kazinol B is probably mediated by the synergism of PKC activation and [Ca2+]i elevation in rat neutrophils.
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PMID:The signal transduction mechanism involved in kazinol B-stimulated superoxide anion generation in rat neutrophils. 980 35

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