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)

The purpose of this study was to purify and identify the proteinase-like substance previously recognized as responsible for the Na+/K(+)-ATPase stimulating property of plasma from insulin-dependent diabetic subjects. Anion-exchange chromatography followed by two-step heparin affinity chromatography resulted in a fraction highly enriched in both potent Na+/K(+)-ATPase stimulating activity and potent proteolytic activity. Approx. 400 micrograms of purified protein was isolated from 62 mg of starting plasma proteins. When analyzed on sodium dodecyl sulfate gels the active fraction consisted mainly of one polypeptide band with an apparent molecular mass of 66 kDa under either reducing or nonreducing conditions. The proteinase-like properties of the purified fraction were further revealed by its ability to clot plasma, split fibrinogen with production of fibrinopeptide A and induce shape change in human platelets and irreversible platelet aggregation in the presence of the stable analogue of endoperoxides U46619. Its additional capacity to affect platelet phosphoinositol metabolism was shown by the stimulation of protein kinase C-dependent phosphorylation of 47 kDa platelet membrane protein. In designing an identification protocol for the purified fraction, it was postulated that plasma proteinases are probably bound to their inhibitors, to form a stable covalently linked complex. The possibility that a proteinase-proteinase inhibitor complex was purified instead of single proteinase(s) was investigated. Neither trypsin nor neutrophil elastase were present in the active fraction whereas, among the possible plasma proteinase inhibitors tested, immunoreactivity was observed only in the presence of alpha 1-antitrypsin (alpha 1 AT) antiserum. Double immunodiffusion showed that control human alpha 1 AT and the plasma-purified fraction shared common antigens. Furthermore, both isoelectric focusing and amino acid composition analysis showed that the two substances were similar. The results obtained indicate that alpha 1 AT is apparently the only active component of the purified fraction from the plasma of insulin-dependent diabetics, thus suggesting that an altered form of the inhibitor is responsible for the broad range of proteinase-like effects elicited by the plasma-purified fraction.
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PMID:Purification of proteinase-like and Na+/K(+)-ATPase stimulating substance from plasma of insulin-dependent diabetics and its identification as alpha 1-antitrypsin. 131 11

Recruitment of inflammatory cells to the lung capillaries has been proposed as an important step in the sequence of events that lead to acute lung injury. Frequently, in the clinical setting, bacteremia and sepsis syndrome precede the acute lung failure and endotoxin priming may represent a comparable paradigm, useful for experimental pursuit. Following addition of the chemotactic tripeptide FMLP (10(-9) to 10(-6) M) to the cell-free, salt solution perfusate of isolated rat lungs, only a small degree of vasoconstriction was observed. However, in lungs isolated from rats that received 2 mg/kg intraperitoneal Salmonella enteritidis endotoxin 2 h before lung perfusion, FMLP dose dependently caused a large, transient pulmonary pressor response, edema formation, and release of large amounts of thromboxane and leukotriene B4. Since in vitro priming with endotoxin, direct vascular injury by neutrophil elastase, nor direct stimulation with FMLP of pulmonary artery rings from endotoxin-pretreated rats, mimicked the effects of in vivo endotoxin priming, we conclude that the presence of inflammatory cells in the lung capillaries accounted for the large amount of eicosanoids produced by the lungs after FMLP stimulation. In fact, by retrograde lavage of the lung circulation with a collagenase solution, previously adherent cell clumps were mobilized and identified. These cell clumps, composed of red blood cells, neutrophils, and platelets, were not seen in the vascular lavage sediment obtained from unprimed control lungs. Indomethacin, a thromboxane antagonist, AA861, a 5-lipoxygenase inhibitor, and WEB 2086, a platelet-activating factor (PAF) antagonist, reduced the thromboxane synthesis and release after FMLP (10(-7) M) in in vivo endotoxin-primed lungs. None of the inhibitors employed exclusively inhibited only one particular eicosanoid mediator but rather affected the release of several mediators, suggesting a close link between the different synthetic arachidonic acid pathways. An inhibitor of phospholipase C (2-nitro-4-carboxyphenyl-N,N-diphenylcarbamate), NCDC, but not an inhibitor of phospholipase D (Wortmannin) or of protein kinase C (staurosporine) inhibited the FMLP-stimulated pulmonary pressure rise and eicosanoid release in endotoxin-primed lungs in vivo. Our data suggest that eicosanoids (in particular thromboxane) released from cells trapped in the lung circulation, but not from constitutive lung cells, contribute to vasoconstriction and edema formation caused by the chemoattractant FMLP in endotoxin-primed lungs.
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PMID:FMLP causes eicosanoid-dependent vasoconstriction and edema in lungs from endotoxin-primed rats. 154 53

The neutral proteinase elastase is released from polymorphonuclear (PMN) leukocytes in various physiological and pathological conditions. Aim of the present study was to gain further insight into the mechanisms which govern the liberation of this proteinase. Therefore, the effects of the calcium ionophore A23187 and of the protein kinase C activator phorbol myristate acetate (PMA) on neutrophils were investigated in human whole-blood samples. Furthermore, the inhibitory effects of the calcium channel blocker verapamil and of the calmodulin blocker trifluoperazine were followed. A23187 induced a release of elastase from neutrophils in a dose- and time-dependent manner. Complexation of extracellular calcium by ethylenediamine tetraacetate (EDTA) completely abolished the stimulatory effect of A23187. In a concentration of 10(-4) M verapamil was capable of attenuating (-49%) the A23187-induced secretion of PMN elastase. Besides the increase in intracellular calcium concentration, the activation of protein kinase C by PMA did also cause a release of neutrophil elastase. This release was strictly depending on the concentration of PMA and the time of incubation. In contrast to the stimulatory effect of A23187, the PMA-induced liberation of neutrophil elastase was attenuated, but not completely abolished, by complexation of extracellular calcium with EDTA. Both 10(-4) M verapamil (-43%) and 10(-5) M trifluoperazine (-42%) were able to reduce the PMA-induced release of neutrophil elastase. Based upon these data, we conclude that both the translocation of calcium intracellularly by A23187 and the activation of protein kinase C by PMA stimulate the release of neutrophil elastase. Verapamil and trifluoperazine were capable of suppressing the stimulation of elastase release.
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PMID:Stimulation and inhibition of elastase release from human neutrophil-dependence on the calcium messenger system. 311 99

The neutral proteinase elastase is released from polymorphonuclear (PMN) leukocytes in various physiological and pathological conditions. Aim of the present study was to gain further insight into the mechanisms which govern the liberation of this proteinase. Therefore, the effects of the calcium ionophore A23187 and of the protein kinase-C activator phorbol myristate acetate (PMA) on neutrophils were investigated in human whole-blood samples. Furthermore, the inhibitory effects of the calcium channel blocker verapamil and of the calmodulin blocker trifluoperazine were followed. A23187 induced a release of elastase from neutrophils in a dose- and time-dependent manner. Complexation of extracellular calcium by ethylenediamine tetraacetate (EDTA) completely abolished the stimulatory effect of A23187. In a concentration of 10(-4) M verapamil was capable to attenuate (-49%) the A23187-induced secretion of PMN elastase. Beside the increase in intracellular calcium concentration, the activation of protein kinase C by PMA did also cause a release of neutrophil elastase. This release was strictly depending on the concentration of PMA and the time of incubation. In contrast to the stimulatory effect of A23187, the PMA-induced liberation of neutrophil elastase was attenuated, but not completely abolished, by complexation of extracellular calcium with EDTA. Both 10(-4) M verapamil (-43%) and 10(-5) M trifluoperazine (-42%) were able to reduce the PMA-induced release of neutrophil elastase. Based upon these data, we conclude that both the translocation of calcium intracellularly by A23187 and the activation of protein kinase C by PMA stimulate the release of neutrophil elastase. Verapamil and trifluoperazine were capable to suppress the stimulation of elastase release.
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PMID:Stimulation and inhibition of elastase release from human neutrophils dependent on the calcium messenger system. 312 93

Neutrophil cathepsin G and thrombin, the only platelet agonists that are proteases, exhibit a mandatory requirement for catalytic activity to induce platelet aggregation and signal transduction. The thrombin receptor is a G-protein-coupled receptor which undergoes proteolysis to generate a tethered ligand that causes self-activation. Since cathepsin G strongly resembles thrombin in its ability to activate platelets, we have attempted to determine whether cathepsin G and thrombin function through the same or different receptors. Evidence that thrombin and cathepsin G act at different receptors was as follows: (a) an antibody directed against the thrombin receptor blocked thrombin-induced but not cathepsin G-induced platelet responses; (b) human fibroblasts responded to thrombin and to a synthetic thrombin receptor peptide (comprising residues 42-55 of the thrombin receptor) by exhibiting an elevation in cytosolic Ca2+ concentration but did not respond to cathepsin G; and (c) platelets pretreated with neutrophil elastase failed to respond to thrombin but responded when rechallenged by cathepsin G. Thrombin and cathepsin G exhibit heterologous desensitization that is potentiated by okadaic acid and is attenuated by staurosporine, indicating that phosphorylation of serine/threonine residues is important for desensitization and that protein kinase C may be involved. Since catalytic activity of cathepsin G is required for platelet stimulation, it is probable that platelet activation by cathepsin G requires receptor proteolysis and that a tethered ligand mechanism is involved, suggesting that platelets may possess a family of protease receptors.
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PMID:Cathepsin G and thrombin: evidence for two different platelet receptors. 829 30

Neutral serine proteinases such as mast cell chymase, cathepsin G, and neutrophil elastase are far more potent secretagogues for airway gland serous cells than all other agonists studied (e.g., histamine and bradykinin). To determine the mechanism of proteinase-induced secretion, we investigated the stimulation-secretion coupling in cultured bovine serous cells. Histamine stimulates degranulation of serous cells via adenosine 3', 5'-cyclic monophosphate-, protein kinase C-, and intracellular Ca2+ concentration ([Ca2+]i)-dependent pathways. Similarly, bradykinin-induced secretion involves inositol phosphates, protein kinase C, and [Ca2+]i. Degranulation caused by both agonists also depends on the activity of an endogenous metalloprotease, which is required in a late step of stimulation-secretion coupling, i.e., after Ca2+ entry. On the basis of the effect of different inhibitors, this metalloprotease is a Zn(2+)- and Ca(2+)-dependent enzyme similar to a gelatinase A synthesized by serous cells. In marked contrast to other secretagogues, degranulation induced by chymase, cathepsin G, and neutrophil elastase neither involves the classical second messengers nor the activity of the endogenous metalloprotease. These observations suggest that exogenous proteinases such as chymase, cathepsin G, and elastase may substitute for or mimic the action of an endogenous metalloprotease and directly activate degranulation, bypassing the signal transduction mechanisms necessary for secretion caused by other agonists.
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PMID:Classical second messengers are not involved in proteinase-induced degranulation of airway gland cells. 894 23

Neutrophil elastase (NE) and cathepsin G are two serine proteinases released concomitantly by stimulated polymorphonuclear neutrophils. We previously demonstrated that while NE by itself does not activate human platelets, it strongly enhances the weak aggregation induced by a threshold concentration of cathepsin G (threshold of cathepsin G) (Renesto, P., and Chignard, M. (1993) Blood 82, 139-144). The aim of this study was to delineate the molecular mechanisms involved in this potentiation process. Two main pieces of data prompted us to focus on the activation of the platelet fibrinogen receptor, the alphaIIbbeta3 integrin. First, previous studies have shown this integrin to be particularly prone to proteolytic regulation of its function. Second, we found that the potentiating activity of NE on the threshold of cathepsin G-induced platelet aggregation was strictly dependent on the presence of exogenous fibrinogen. Using flow cytometry analysis, NE was shown to trigger a time-dependent binding of PAC-1 and AP-5, two monoclonal antibodies specific for the activated and ligand-occupied conformers of alphaIIbbeta3. Furthermore, the potentiated aggregation was shown to result from an increased capacity of platelets to bind fibrinogen. Indeed, the combination of NE and threshold of cathepsin G increased the binding of PAC-1 approximately 5.5-fold over basal values measured on nontreated platelets, whereas this binding raised only by approximately 3-fold in threshold of cathepsin G-stimulated platelets (p < 0.05). By contrast, phosphatidic acid accumulation, pleckstrin phosphorylation, and calcium mobilization produced by the combination of NE and threshold of cathepsin G were not significantly different from those measured with threshold of cathepsin G alone (p > 0.05), indicating that the phospholipase C/protein kinase C pathway is not involved in the potentiation of aggregation. The foregoing data, as well as the requirement of catalytically active NE to trigger alphaIIbbeta3 activation and potentiate threshold of cathepsin G-initiated platelet aggregation, led us to examine whether the structure of this integrin was affected by NE. Immunoblot and flow cytometry analysis revealed a limited proteolysis of the carboxyl terminus of the alphaIIb subunit heavy chain (alphaIIbH), as judged by the disappearance of the epitope for the monoclonal antibody PMI-1. Mass spectrometry studies performed on a synthetic peptide mapping over the cleavage domain of alphaIIbH predicted the site of proteolysis as located between Val837 and Asp838. Treatment by NE of ATP-depleted platelets or Chinese hamster ovary cells expressing human recombinant alphaIIbbeta3 clearly established that activation of the integrin was independent of signal transduction events and was concomitant with the proteolysis of alphaIIbH. In support of this latter observation, a close correlation was observed between the kinetics of proteolysis of alphaIIbH on platelets and that of expression of the ligand binding activity of alphaIIbbeta3 (r2 = 0.902, p </= 0. 005). However, only a subpopulation ( approximately 25%) of the proteolyzed alphaIIbbeta3 appeared to fully express the ligand binding capacity. Altogether, these results demonstrate that NE up-regulates the fibrinogen binding activity of alphaIIbbeta3 through a restricted proteolysis of the alphaIIb subunit, and that this process is relevant for the potentiation of platelet aggregation.
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PMID:Human neutrophil elastase proteolytically activates the platelet integrin alphaIIbbeta3 through cleavage of the carboxyl terminus of the alphaIIb subunit heavy chain. Involvement in the potentiation of platelet aggregation. 911 Oct 81

Sepsis is a life-threatening event when it occurs in patients suffering from smoke inhalation injury. Pneumonia is one of the most frequent sources of infection in sepsis. Activated leukocytes likely play a role in the pathogenesis of sepsis. Cepharanthin is a biscoclaurine alkaloid that reportedly inhibits the activation of neutrophils. In this study, we investigated the effects of cephranthin on a post-smoke inhalation model of sepsis in sheep. Female sheep (n = 15) were surgically prepared for the study. After 5 days recovery from the operative procedures, tracheostomy was performed in all animals and 48 breaths of cotton smoke (<40 degrees C) were given via a modified bee smoker under halothane anesthesia. After smoke insufflation, Pseudomonas aeruginosa (5 x 109 cfu/kg) was instilled into the airway using a bronchoscope. All of the animals were mechanically ventilated with 100% O(2). Cepharanthin (1.3 mg/kg/h) was infused in five sheep continuously beginning 1 h after the insult and thereafter for the remainder of the 24-h study period. Control animals (n = 6) were treated with 5% dextrose as a vehicle control. Cepharanthin significantly attenuated changes in lung histology as well as in lung wet/dry weight ratio. An in vitro study revealed that cepharanthin inhibited the release of neutrophil elastase from isolated neutrophils stimulated with either formyl-methyl-leucyl-phenylalanine (fMLP) or phorbol myristate acetate with an IC(50) of 60 microM. Cepharanthin also inhibited the fMLP-induced increase in intracellular calcium levels of neutrophils. This result indicates cepharanthin inhibits protein kinase C or a more downstream signaling pathway in neutrophil activation. In conclusion, cepharanthin attenuates acute lung injury and septic shock after smoke inhalation in sheep.
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PMID:Cepharanthin, an alkaloid from Stephania cepharantha, inhibits increased pulmonary vascular permeability in an ovine model of sepsis. 1281 68

The sequestration of neutrophils in the lung and the release of proinflammatory mediators, including neutrophil elastase, are responsible for sepsis-induced microvascular permeability and alveolar epithelial cell damage. To assess the underlying mechanism, human neutrophil elastase (0.01-0.5 microg/ml) was added to cultured A549 epithelial cells in the presence or absence of inhibitors. IL-8 was analyzed by ELISA or by RT-PCR to measure the IL-8 synthesis capacity. Mitogen-activated protein kinase (MAPK) activity was detected by Western blot analysis. Neutrophil elastase dose-dependently increased IL-8 release from cultured A549 epithelial cells. Pretreatment with a specific elastase inhibitor, elastase inhibitor II (at 0.5, 5, and 50 microg/ml), dose-dependently inhibited neutrophil elastase-induced IL-8 release. The activities of MAPK, p38, and extracellular signal-regulated kinase (ERK) were upregulated by neutrophil elastase. Nuclear transcriptional factor-kappa B (NF-kappaB) and activator protein 1 (AP-1) were also activated. These responses were significantly inhibited by elastase inhibitor II. A specific inhibitor of p38 MAPK (SB203580) and an NF-kappaB inhibitor (pyrrolidine dithiocarbamate), but not an ERK inhibitor (PD 98059), significantly inhibited neutrophil elastase-induced IL-8 release and mRNA expression. The specific tyrosine kinase inhibitor, genistein, and the protein kinase C (PKC) inhibitor, Ro 31-8220, also inhibited IL-8 release and mRNA expression as well as p38 and NF-kappaB activation. There was no significant effect by the protein kinase A inhibitor, H-89, on neutrophil elastase-induced IL-8 synthesis or p38 MAPK activation. Our results indicate that neutrophil elastase activates p38 MAPK which upregulates NF-kappaB and AP-1 activities, thus inducing IL-8 mRNA expression and protein synthesis. Tyrosine kinase and PKC are implicated in neutrophil elastase activation of the MAPK pathway.
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PMID:Neutrophil elastase induces IL-8 synthesis by lung epithelial cells via the mitogen-activated protein kinase pathway. 1473 Feb 9

Mucus hypersecretion is a prominent manifestation in patients with chronic inflammatory airway diseases. MUC5AC mucin is a major component of airway mucus, and its expression is modulated by a TNF-alpha-converting enzyme (TACE)-EGF receptor pathway that can be activated by reactive oxygen species (ROS). Dual oxidase 1 (Duox1), a homologue of glycoprotein p91(phox), is expressed in airway epithelium and generates ROS. We hypothesize that Duox1 activates TACE, cleaving pro-TGF-alpha into soluble TGF-alpha, resulting in mucin expression. To examine this hypothesis, we stimulated both normal human bronchial epithelial cells and NCI-H292 airway epithelial cells with phorbol 12-myristate 13-acetate and with human neutrophil elastase. These stimuli induced TACE activation, TGF-alpha release, and mucin expression, effects that were inhibited by ROS scavengers, implicating ROS in TACE activation. Inhibition of epithelial NADPH oxidase or knockdown of Duox1 expression with small interfering RNA prevented ROS generation, TGF-alpha release, and mucin expression by these stimuli, implicating Duox1 in TACE activation and mucin expression. Furthermore, the PKCdelta/PKC inhibitor rottlerin prevented the effects induced by phorbol 12-myristate 13-acetate and human neutrophil elastase, suggesting that PKCdelta and PKC are involved in Duox1 activation. From these results, we conclude that Duox1 plays a critical role in mucin expression by airway epithelial cells through PKCdelta/PKC-Duox1-ROS-TACE-pro-ligand-EGF receptor cascade.
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PMID:Dual oxidase 1-dependent MUC5AC mucin expression in cultured human airway epithelial cells. 1564 Mar 47

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