EC:2.7.11.13 - FACTA Search

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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)

1. Parotid gland secretory function and activity of several enzymes involved in intracellular second messenger signalling were measured in rats receiving 0.5 ml i.p. injections of saline (control), isoproterenol, CCK or both drugs. 2. Isoproterenol caused a 2.5-fold increase in parotid gland wet weight compared to control. Chronic administration of CCK alone has no effect on gland weight. A combination of CCK and isoproterenol did not alter the hypertrophy of the gland observed with isoproterenol alone. 3. Isoproterenol administration caused a 74% decrease in parotid gland amylase enzyme activity. While CCK alone did not influence the enzyme activity, it depressed amylase mRNA steady state levels and had an additive effect on further decreasing mRNA levels when administered in combination with beta-agonist. 4. Phospholipase C registered an increase ranging from 22 to 38% in all experimental groups as compared to control. 5. Parotid gland protein kinase C and PdtIns 3-kinase activity were not altered in response to CCK alone, but in combination with isoproterenol, appeared to moderate beta-agonist signal transduction responses.
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PMID:Cholecystokinin modulates isoproterenol induced changes in rat parotid gland. 750 29

GH secretory patterns undergo marked change during early mammalian development. The factors that underlie these changes and the major components of signal transduction in the immature somatotrophs are not fully understood. Increasing evidence suggests that protein kinase C (PKC) plays a central role in perinatal organ differentiation and function. To evaluate the possible role of PKC as a mediator of GH secretion from immature pituitaries, we tested the effects of the PKC activating phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), alone or together with GH-releasing factor (GRF), somatostatin (SRIF), and Ca2+ modifying agents; an inactive phorbol analogue (4 alpha-12-13-didecanoate; 4 alpha-PDD), and phospholipase C on GH release from pituitary cell cultures from perinatal and mature rats. Pituitary primary cell cultures were prepared from fetal (day 20 of 21.5 days of gestation), 2-day-old, 12-day-old, and adult male (2- to 4-month-old) rats. Each experiment was performed on at least three separate occasions. The magnitude of TPA (0.15-150 nM)-induced GH release was markedly age-dependent, fractional GH release being greatest from pituitaries of fetal and newborn rats, and least from those of adults (P < 0.001). Further, the minimum dose of TPA required to stimulate GH release over basal levels was tenfold higher for adult pituitaries (15 nM) than for perinatal pituitaries (1.5 nM). Phospholipase C (1 and 10 U/ml) also caused greater fractional GH release from neonatal pituitaries than from adult pituitaries (P < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ontogeny of the GH response to phorbol ester and phospholipase C in rat pituitary cells. 761 64

In rat parotid glands protein secretion studied in vitro is weakly stimulated by carbachol (which induces Phospholipase C activation) and strongly by isoprenaline (which activates the adenylate cyclase system). We show in this work that the simultaneous activation of the two types of receptors induces a potentiation of protein secretion. This is not due to an enhanced IP3 or cAMP accumulation nor any modification on calcium movements. Potentiation of protein secretion is also mimicked by analogues of second messengers suggesting that this phenomenon is a post-receptor event which takes place at a distal step from messenger production. Furthermore we also showed that the activation of beta-adrenergic receptor led to two parallel events: cAMP accumulation and calcium movements. These two events were required to obtain maximal secretion. We also show that cholinergic induced secretion is also the result of a synergism between calcium and protein kinase C activation. At a physiological level, the synergism between two different transduction pathways must play an important role. This surely allows the cells to give maximal response, without any desensitization phenomena.
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PMID:[Parotid gland in rats, a model for the study of regulated exocrine secretion]. 783 96

The aim of this study was to elucidate signal transduction pathways following high-density lipoprotein 3 (HDL3) fixation to HDL high-affinity binding sites and leading to translocation of newly synthesized cholesterol to the plasma membrane pool for efflux. First, membrane phosphatidylcholine (PC) breakdown and 1,2-diacylglycerol (DAG) production were investigated following HDL3 or tetranitromethane (TNM)-HDL incubation with smooth muscle cells in culture. Second, newly synthesized cholesterol was labeled using [3H] mevalonolactone. Phospholipase C (PLC) and protein kinase C (PKC) were stimulated using carbachol and phorbol 12-myristate 13-acetate. Translocation and efflux of newly synthesized cholesterol were monitored using the cholesterol oxidase method and TNM-HDL as cholesterol acceptor. Results showed that: (1) native HDL3 but not modified HDL was able to stimulate PC breakdown and DAG formation; and (2) PLC and PKC stimulation using specific agents induce cholesterol translocation from intracellular to plasma membrane pool. Taken together, these two sets of results suggest that native HDL3 could induce cholesterol translocation by a PLC/PKC process in smooth muscle cells.
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PMID:High-density lipoprotein 3 stimulates phosphatidylcholine breakdown and sterol translocation in rat aortic smooth muscle cells by a phospholipase C/protein kinase C-dependent process. 791 66

The vascular system is receptive to both chemical and physical factors, and these factors elicit subsequent cellular responses such as contraction and relaxation. Quick stretch applied to cerebral and coronary arteries produces myogenic contraction by mobilization of at least two Ca2+ components, i.e., transmembrane influx and release from intracellular storage sites of Ca2+. The mechanical reception is more susceptible than pharmacological reception to chemical skinning, suggesting the importance of membrane lipids as a mechanosensor domain. Phospholipase C coupled to a cholera toxin- or pertussis toxin-insensitive GTP-binding protein, possibly a G4 class one, may play a role in the genesis of vascular contraction in response to stretch. Activation of protein kinase C may affect more strongly the maintenance phase of stretch-induced contraction through the change in Ca2+ sensitivity of the contractile elements. The contractile reaction of vascular tissue to mechanical force such as stretch is a kind of physical response and thus requires cellular signal transduction, which may be mediated through a receptive site specific for a mechanical stimulus and the pathways of Ca2+ signaling that are common to pharmacological agonists.
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PMID:Stretch-induced contraction and Ca2+ mobilization in vascular smooth muscle. 803 57

Endothelin (ET) B-type receptor-mediated signal transduction after stimulation with ET-3 was examined in cultured aortic endothelial cells obtained from spontaneously hypertensive (SHR) and normotensive Wistar-Kyoto (WKY) rats. The purpose of this study was to elucidate ETB receptor-mediated response in endothelial cells from hypertensive rat models. Non-isopeptide-selective displacement and affinity in these binding experiments suggest that aortic endothelial cell receptors for ET-3 correspond to ETB receptor subtypes. These receptors for ET-3 were similar in WKY and SHR endothelial cells. ETB receptor mRNA expression in cultured endothelial cells was also similar in WKY and SHR. However, the cytosolic free Ca2+ level in the absence of extracellular Ca2+ as well as the inositol 1,4,5-trisphosphate level in response to ET-3 were greater in endothelial cells from SHR than in those from WKY. Phospholipase C and protein kinase C activities after stimulation with ET-3 were also greater in SHR than in WKY. The 6-ketoprostaglandin F1 alpha production was also augmented in SHR, although nitric oxide formation and guanosine 3',5'-cyclic monophosphate production after stimulation with ET-3 were similar in WKY and SHR. We conclude that the phosphoinositide turnover signaling stimulated by ET-3 is augmented in cultured aortic endothelial cells from SHR compared with those from WKY.
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PMID:Phosphoinositide turnover signaling stimulated by ET-3 in endothelial cells from spontaneously hypertensive rats. 809 6

Insulin caused an 8- or a 3-fold increase in lipogenesis in control rats (C) or diabetic rats (DM), respectively. Following insulin treatment for DM, insulin resistance was clearly reversed. Phospholipase C (PLC) caused a 4-fold increase in lipogenesis in C, but not in DM. Insulin treatment partially restored PLC-induced lipogenesis. Insulin or PLC increased protein kinase C (PKC) activity in the membrane fraction in C, but not in DM. Insulin treatment partially restored insulin- or PLC-stimulated PKC activity. 5'-Guanylylimidodiphosphate (Gpp(NH)p) exerted a stimulatory effect on diacylglycerol (DAG) generation in permeabilized adipocytes from C, but not in DM. Insulin treatment partially restored the stimulatory effect of Gpp(NH)p. These findings suggest that a particular G protein(s) is involved in the regulation of DAG generation in adipocytes, and that diabetes leads to a functional or quantitative abnormality in G protein and G protein-PLC. Insulin therapy partially restored G protein-PLC dependent glucose uptake.
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PMID:Lack of the stimulatory effect of guanine nucleotide on diacylglycerol generation in permeabilized adipocytes from diabetic rats. 812 31

Cultures of enzymatically dispersed porcine anterior pituitary cells were used to examine the effects of cortisol on luteinizing hormone secretion induced by a variety of compounds which activate different intracellular signal transduction mechanisms. Cells were pre-incubated with or without cortisol (200 micrograms/ml) for 3 days, washed and then incubated for 4 h with or without cortisol in the presence or absence of these compounds. Luteinizing hormone in the media was assayed by radioimmunoassay. Cortisol treatment had no effect on basal luteinizing hormone release, but reduced gonadotropin-releasing hormone (8.5 x 10(-8) mol/l) stimulated luteinizing hormone secretion. Phospholipase C, 8-bromo-cyclic adenosine 3',5'-monophosphate, and 12-O-tetradecanoyl-phorbol-13-acetate (an activator of protein kinase C) all stimulated luteinizing hormone secretion in a dose-dependent manner in cortisol-untreated cells. Pretreatment with cortisol inhibited luteinizing hormone secretion induced by phospholipase C and 8-bromo-cyclic adenosine 3',5'-monophosphate, but did not affect the secretion of luteinizing hormone in response to 12-O-tetradecanoyl-phorbol-13 acetate. Cortisol inhibited GnRH-induced inositol phosphate production. Our results suggest that the inhibitory action of cortisol on stimulus-coupled luteinizing hormone secretion may be exerted at two different intracellular sites: (1) by inhibition of phospholipase C activity and (2) at a point distal to cyclic adenosine 3',5'-monophosphate generation.
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PMID:Modulation by cortisol of luteinizing hormone secretion from cultured porcine anterior pituitary cells: effects on secretion induced by phospholipase C, phorbol ester and cAMP. 813 98

alpha-Thrombin induced a change in the cell morphology of IIC9 fibroblasts from a semiround to an elongated form, accompanied by an increase in stress fibers. Incubation of the cells with phospholipase D (PLD) from Streptomyces chromofuscus and exogenous phosphatidic acid (PA) caused similar morphological changes, whereas platelet-derived growth factor (PDGF) and phorbol 12-myristate 13-acetate (PMA) induced different changes, e.g., disruption of stress fibers and cell rounding. alpha-Thrombin, PDGF, and exogenous PLD increased PA by 20-40%, and PMA produced a smaller increase. alpha-Thrombin and exogenous PLD produced rapid increases in the amount of filamentous actin (F-actin) that were sustained for at least 60 min. However, PDGF produced a transient increase of F-actin at 1 min and PMA caused no significant change. Dioctanoylglycerol was ineffective except at 50 micrograms/ml. Phospholipase C from Bacillus cereus, which increased diacylglycerol (DAG) but not PA, did not change F-actin content. Down-regulation of protein kinase C (PKC) did not block actin polymerization induced by alpha-thrombin. H-7 was also ineffective. Exogenous PA activated actin polymerization with a significant effect at 0.01 microgram/ml and a maximal increase at 1 microgram/ml. No other phospholipids tested, including polyphosphoinositides, significantly activated actin polymerization. PDGF partially inhibited PA-induced actin polymerization after an initial increase at 1 min. PMA completely or largely blocked actin polymerization induced by PA or PLD. These results show that PC-derived PA, but not DAG or PKC, activates actin polymerization in IIC9 fibroblasts, and indicate that PDGF and PMA have inhibitory effects on PA-induced actin polymerization.
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PMID:Activation of actin polymerization by phosphatidic acid derived from phosphatidylcholine in IIC9 fibroblasts. 827 97

Phospholipase C-gamma 1 (PLC-gamma 1; EC 3.1.4.11) hydrolyzes phosphatidylinositol 4,5-bisphosphate to generate diacylglycerol and inositol 1,4,5-trisphosphate and is activated in response to growth factor stimulation and tyrosine phosphorylation. Concomitantly, the enzyme translocates from the cytosol to the particulate cell fraction. A similar process of activation-induced translocation from the cytosol to the cell particulate fraction has also been described for protein kinase C (PKC). We have previously shown that activated PKC binds to specific receptor proteins, receptors for activated C kinase, or RACKs, of approximately 30 kDa. Here, we show that PLC-gamma 1 bound to these RACKs and inhibited subsequent PKC binding to RACKs. However, unlike PKC, the binding of PLC-gamma 1 to RACKs did not require phospholipids and calcium. After epidermal growth factor treatment of intact A-431 cells, the binding of PLC-gamma 1 to RACKs increased as compared with PLC-gamma 1 from control cells. This increase in PLC-gamma 1 binding to RACKs was due to the phosphorylation of PLC-gamma 1. Additional data indicated that PLC-gamma 1 binds to RACKs in solution; epidermal growth factor receptor-dependent PLC-gamma 1 phosphorylation and activation decreased in the presence of RACKs. It is possible that, in vivo, PLC-gamma 1 associates with RACKs or with other PLC-gamma 1-specific anchoring proteins in the particulate cell fraction. Since a PKC C2 homologous region is present in PLC-gamma 1, the C2 region may mediate the activation-induced translocation of the enzyme to the cell particulate fraction and the anchoring protein-PLC-gamma 1 complex may be the active translocated form of PLC-gamma 1.
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PMID:Phospholipase C-gamma 1 binding to intracellular receptors for activated protein kinase C. 829 May 62

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