Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Endothelin 1 (ET-1) is a potent vasoconstrictor peptide recently isolated from vascular endothelial cells. Because its role and mechanisms of action in regulating airway contractility remain to be identified, we examined the contractile effects of ET-1 in isolated rabbit tracheal smooth muscle (TSM) segments. In TSM under passive tension, ET-1 elicited dose-dependent contractions with a mean +/- SE -log 50% of maximal response value of 7.82 +/- 0.13 vs. a value of 5.61 +/- 0.07 -log M for acetylcholine (ACh). In TSM half-maximally contracted with ACh, however, ET-1 exerted dual and opposing contractile effects. Lower doses of ET-1 (less than or equal to 10(-9) M) produced a 74.2 +/- 16.6% decrease in active TSM tension. This relaxant response to ET-1 was associated with an accelerated accumulation of prostaglandin (PG) I2 and PGE2 and was attenuated by cyclooxygenase inhibition with indomethacin (10(-5) M). The combination of indomethacin and removal of the airway epithelium completely inhibited the TSM relaxant response to ET-1. In contrast, higher doses of ET-1 (greater than 10(-9) M) induced airway contractions that were attenuated by the Ca2+ channel blockers nifedipine (10(-5) M) and diltiazem (10(-5) M) and ablated in Ca2(+)-free buffer. Moreover, ET-1-induced TSM contractions were inhibited by the protein kinase C (PK-C) antagonists 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, and staurosporine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of endothelin 1 in regulating rabbit airway contractility. 199 65

Aspirin, an inhibitor of cyclooxygenase, inhibits platelet aggregation in response to many stimuli. Previous studies suggested an important and necessary role for protein kinase C (PKC) in platelet aggregation and secretion. Therefore, the effects of aspirin on sn-1,2-diacylglycerol (DAG), the endogenous activator of PKC, were investigated. Specifically, we sought to determine whether inhibition of DAG production is critical for aspirin action on platelets. Total DAG mass was measured using the DAG kinase assay. At low doses of gamma-thrombin (4 nM), aspirin (5 mM) completely inhibited secondary aggregation; this inhibition was associated with near-complete inhibition of DAG production. Inhibition of collagen-induced aggregation by aspirin (50 microM) was also associated with complete inhibition of collagen-stimulated DAG production and secondary aggregation. Concomitantly, aspirin reduced phosphorylation of the 40-kDa protein, a specific PKC substrate strongly suggesting inhibition of PKC in response to aspirin. To determine the physiologic significance of the inhibition of DAG production by aspirin, reconstitution studies were conducted with dioctanoylglycerol (diC8), a cell-permeable DAG. Under conditions in which aspirin completely inhibited secondary aggregation induced by gamma-thrombin, collagen, or arachidonic acid, diC8 overcame aspirin inhibition of agonist action and reconstituted secondary aggregation. DiC8 exerted these effects at low concentrations (2-3 microM), which caused minimal aggregation of control platelets. Phorbol 12,13-dibutyrate, a phorbol ester that directly activates PKC, mimicked the effects of diC8 in overcoming aspirin inhibition of collagen-induced platelet activation. However, subthreshold concentrations of the calcium ionophore ionomycin, arachidonic acid, or gamma-thrombin were unable to overcome aspirin inhibition of collagen-induced platelet aggregation, suggesting that the ability to overcome aspirin inhibition is not shared by other second messengers and is not due to nonspecific synergy. These studies constitute evidence that inhibition of DAG production and subsequent PKC activation are crucial to the antiaggregatory effects of aspirin. They also support the hypothesis that DAG production and PKC activation may be the final common pathway for induction of secondary aggregation.
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PMID:Diacylglycerol overcomes aspirin inhibition of platelets: evidence for a necessary role for diacylglycerol accumulation in platelet activation. 201 54

Formation of thrombi, which constitute the main mechanism of occlusive cardiovascular diseases, is mediated by blood platelets and fibrinogen. At least three stimulatory pathways can activate platelets, yet only one is sensitive to inhibition by aspirin (cyclooxygenase). Aspirin-insensitive pathways, mediated by protein kinase C and myosin light-chain kinase, lead to a change of platelet shape, with an attendant striking increase in their surface (pseudopods) followed by exposure of receptors for fibrinogen and vWf on GPIIb-IIIa. Another receptor for vWf (GPIb), independent of known pathways of platelet activation, seems to function primarily in vessels with a high shear rate. The multistep processes of platelet activation can be circumvented by the blockade of platelet receptors for adhesive molecules, present in subendothelium and in plasma. However, platelet receptors exposed on GPIIb-IIIa share common structural features with the endothelial receptor for vitronectin. Blockade of platelet GPIIb-IIIa with synthetic peptides containing the RGD sequence, or with certain monoclonal antibodies, may inadvertently cause detachment, or prevent attachment, of endothelial cells in a zone of vascular injury. The peptide analogs of human fibrinogen gamma chain sequence 400-411 possess high selectivity for platelet GPIIb-IIIa because they do not cause detachment of endothelial cells. Thus, endothelial regrowth in the zone of vascular injury following thrombolysis and/or angioplasty will go unperturbed. The significance of adhesive proteins interacting with their receptors transcends the issue of the fundamental mechanism of platelet aggregation of platelet thrombus formation. A molecular model of the adhesive interaction between fibrinogen domains and GPIIb-IIIa will probably be the most amenable to construction. Once such a model is established and its allosteric regulation is unraveled, its utility for further development of improved antiplatelet receptor blockers as antithrombotic drugs, that are both selective and potent will become a reality.
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PMID:Adhesive interactions of platelets and their blockade. 202 88

The induction of pulmonary alveolar macrophage (PAM) tissue factor-dependent procoagulant activity is central to the deposition of inflammatory fibrin in the pulmonary alveolus. The presence of enhanced tissue factor activity is often associated with pulmonary fibrin deposition, an important pathogenetic event that can delay resolution of pulmonary inflammation and promote the induction of pulmonary fibrosis. Since tissue factor synthesis induction and activation pathways are potential therapeutic targets for modulation of alveolar macrophage tissue factor (procoagulant) activity, we examined the pathways through which endotoxin lipopolysaccharide (LPS) induces bovine PAM tissue factor-dependent procoagulant activity. PAM procoagulant activity was markedly enhanced to 10 times the levels of freshly isolated PAM after 8 h of culture in the presence of either the protein kinase C (PKC) agonist phorbol 12-myristate 13-acetate (PMA) or LPS. Both LPS-(P less than 0.002) and PMA-induced activity (P less than 0.007) was completely ablated by the PKC inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H 7,100 microM) but was unaffected by the cyclic nucleotide-dependent protein kinase inhibitor N-(2-guanidinoethyl)-5-isoquinolinesulfonamide (HA-1004, 100 microM). The arachidonate cyclooxygenase pathway inhibitor phenylbutazone (10(-4) M) had modest effects that were not statistically significant. The unstimulated increase of procoagulant activity in 8-h cultures was unaffected by the same inhibitory modulations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endotoxin-mediated bovine alveolar macrophage procoagulant induction is dependent on protein kinase C activation. 209 May 87

The present study was undertaken to investigate the changes in arachidonic acid (AA) metabolism which accompany rat macrophage (m phi) differentiation in the lung in order to determine whether these changes occur in the alveolar space or in the pulmonary interstitium, as well as the mechanisms responsible for such changes. Metabolism of endogenous and exogenous AA by cultured m phi obtained from the peritoneum (PM), the pulmonary interstitium (IM), and the alveolar spaces (AM) was examined by using HPLC and RIA. Although PM and AM released similar amounts of endogenous AA in response to both ionophore A23187 and the particulate zymosan, PM metabolized AA predominantly to cyclooxygenase (CO) products, whereas AM produced predominantly 5-lypoxygenase (5-LO) metabolites. IM synthesized a profile of eicosanoids which more closely resembled that of PM. Studies of the metabolism of exogenously supplied AA demonstrated that AM indeed had less CO activity than did PM. PM, but not AM, CO activity decreased during prolonged culture in air, suggesting the possibility that oxidative inactivation of CO plays a role in the decline in CO capacity which accompanies m phi differentiation in the lung. In contrast, the greater expression of 5-LO metabolism in AM than PM did not reflect mere differences in enzyme capacity, since upon activation of protein kinase C with PMA or oleoylacetylglycerol, ionophore-stimulated PM produced amounts of 5-LO products which were comparable to the amounts produced by AM stimulated with A23187 alone. These results indicate that increases in 5-LO metabolism and decreases in CO metabolism accompany rat m phi differentiation in the lung, that these changes occur largely in the alveolar space, and that the increased 5-LO capacity and decreased CO capacity are independently regulated by different mechanisms.
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PMID:Alterations in the pattern of arachidonate metabolism accompany rat macrophage differentiation in the lung. 210 88

Release of eicosanoids is an important response of macrophages to inflammation and bacterial infection. At low concentrations, bacterial lipopolysaccharide (1-2 micrograms/ml) fails to stimulate eicosanoid release in resident peritoneal macrophages but primes the macrophages for a greatly enhanced release of eicosanoids on stimulation with the calcium ionophore A23187 (0.1 microM) or with phorbol 12-myristate 13-acetate (50 nM), an activator of protein kinase C. Incubation of macrophages with Bordetella pertussis toxin, prior to priming with lipopolysaccharide, inhibited the release of both cyclooxygenase and lipoxygenase products upon A23187 stimulation. Pertussis toxin treatment of macrophages had no effect on eicosanoid release when the stimulus was phorbol 12-myristate 13-acetate. The presence of 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), an effective inhibitor of protein kinase C, during lipopolysaccharide priming and subsequent stimulation significantly inhibited eicosanoid release when phorbol 12-myristate 13-acetate was the stimulus, but did not affect eicosanoid release stimulated by A23187. Based on these results, at least two mechanisms, distinguished by apparent differences in sensitivity to pertussis-toxin-sensitive, guanine-nucleotide-binding proteins and protein kinase C, are involved in eicosanoid secretion by lipopolysaccharide-activated macrophages in response to A23187 and phorbol 12-myristate 13-acetate.
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PMID:Pertussis toxin and H-7 distinguish mechanisms involved in eicosanoid release from lipopolysaccharide-primed macrophages. Eicosanoid release from lipopolysaccharide-primed macrophages. 210 89

We assessed cyclooxygenase activity in cultured rat mesangial cells by measuring prostaglandin production with reverse phase HPLC upon addition of exogenous 14C arachidonic acid. The profile of prostaglandins produced was PGE2 greater than PGF2a much greater than 6-keto PGF1a much greater than thromboxane and PGD2. In quiescent mesangial cells, exposure to 300 microM aspirin for 30 minutes irreversibly inhibited cyclooxygenase activity; after 5 hours, cyclooxygenase activity was only 19 +/- 3% of control. Addition of 10% fetal bovine serum after aspirin inactivation stimulated time-dependent recovery of cyclooxygenase activity to 118 +/- 30% of control by 5 hours. Serum induced-recovery was significantly inhibited by the simultaneous administration of the protein kinase C inhibitor, staurosporine. Phorbol myristate acetate also induced recovery of cyclooxygenase activity, suggesting that protein kinase C may be involved in the signaling process. In addition to serum, epidermal growth factor was also found to lead to partial recovery of cyclooxygenase activity. The serum and EGF-induced recoveries were inhibitable by cycloheximide and actinomycin D. These results suggest that recovery of cyclooxygenase activity in mesangial cells is stimulated by EGF and other components of serum, is dependent upon new protein synthesis and appears to be transcriptionally regulated.
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PMID:Recovery of prostaglandin synthesis in rat glomerular mesangial cells after aspirin inhibition: induction of cyclooxygenase activity by serum and epidermal growth factor. 210 66

The induction of eicosanoid synthesis in various cell types by different physiological stimuli is dependent on an increase in the intracellular calcium level and stimulation of the protein kinase C (PKC). In a model system this can be mimicked by using calcium ionophores and direct PKC activators. In mouse peritoneal macrophages calcium ionophores induced the formation of prostaglandin E2 (PGE2) and leukotriene C4 (LTC4). A synergistic enhancement of both eicosanoids could be achieved by simultaneous addition of the calcium ionophore A23187 together with a suboptimal dose of the direct protein kinase C activator 12-O-tetradecanoylphorbol 13-acetate (TPA). Low concentrations of the ionophore, resulting in only marginally increased intracellular calcium levels, led to a more than additive prostaglandin E2 production in combination with TPA. Higher concentrations of A23187 together with TPA favoured LTC4 synthesis, whereas PGE2 levels at the same time were even diminished. This observed shift from prostaglandin to leukotriene formation was amplified by simultaneous addition of indomethacin. Manganese as inhibitor of the A23187-induced calcium influx decreased PGE2 synthesis. On the other hand, in the presence of manganese LTC4 production was also inhibited at high concentrations of A23187 but elevated in the absence or at low doses of A23187. Our data provide evidence that in macrophages the ratio of cyclooxygenase and lipoxygenase products caused by mediators, acting via the phospholipase C or D/PKC signal transduction pathway, is regulated by the extent of the intracellular calcium increase.
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PMID:The ratio of macrophage prostaglandin and leukotriene synthesis is determined by the intracellular free calcium level. 210 88

Unlike unsaturated fatty acids, which almost fully activated purified brain protein kinase C in a phosphatidylserine- and Ca2(+)-free reaction, related methyl esters were poorly active in vitro. In contrast, methyl arachidonate was revealed to be as potent as arachidonic acid in activating protein kinase C in intact platelets. Arachidonic acid-mediated activation peaked at 20 s while methyl arachidonate-mediated activation plateaued at 2 min when both lipids were added at 50 microM. At concentrations higher than 0.3 mM, all tested unsaturated fatty acids and related methyl esters were weak activators of the enzyme, with the exception of linolenic acid and methyl linolenate which evoked strong enzyme activation. However, inhibitors of arachidonate metabolism blocked both arachidonic-acid and methyl-arachidonate-induced responses. At 5 microM arachidonic acid and methyl arachidonate, protein kinase C activation was due to a cyclooxygenase product(s) whereas at 50 microM the lipoxygenase pathway was mostly involved in the reaction. Therefore, arachidonic acid and its methyl ester activate protein kinase C in platelets mainly through action of their metabolites and eicosanoid synthesis. It is suggested that such indirect protein kinase C activation may account for the tumor-promoting activity of unsaturated fatty acids and related methyl esters.
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PMID:Arachidonic acid and related methyl ester mediate protein kinase C activation in intact platelets through the arachidonate metabolism pathways. 211 10

Ebselen is a new anti-inflammatory drug with a wide spectrum of pharmacological activities. Since this compound might be useful in diseases related to airway inflammation we evaluated the effects of ebselen on the contractile responses of guinea-pig parenchymal lung strip. Ebselen and its sulfur analogue RP 62373 depressed both histamine H1-receptor-mediated and KCl-induced (50 mM) contractions of guinea-pig lung strips equipotently. The responses to histamine were only affected via depression of the maximal response; treatment with 3 microM ebselen for 30 min resulted in depression to 77 +/- 5% of the control value, whereas 10 and 30 microM inhibited the contractions to 53 +/- 4 and 52 +/- 4% of the control value respectively. The responses after membrane depolarisation (50 mM KCl) were less sensitive to ebselen pretreatment; 10 microM ebselen inhibited contractions by only 20%, whereas 30 and 100 microM depressed the response by approximately 50%. These observations were evaluated in the context of the activities of ebselen already described. The effects of lipoxygenase, cyclooxygenase, protein kinase C inhibition and thiol alkylation were studied, using established agents. However, although interaction with critical thiol groups might explain our data, the mode of action of ebselen is yet not fully elucidated.
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PMID:Ebselen inhibits contractile responses of guinea-pig parenchymal lung strips. 211 94


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