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)

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

Protein kinase (PK) C has been implicated in a number of cellular events, many of which are also known to be affected by ethanol (ETOH). ETOH intoxication is also known to impair immune function, thereby increasing the host's susceptibility to infection. The purpose of this study was to assess the effect of acute ETOH intoxication on PKC activity and its intracellular distribution in nonparenchymal liver cells following an E. coli lipopolysaccharide (LPS) challenge. The liver was chosen for the study because it is the primary site both for metabolism of ETOH and detoxification of gut derived bacterial products. Catheterized conscious rats were administered saline or ETOH (175 mg/100 g body weight as a bolus followed by a continuous, 7 hr infusion of 28 mg/100 body weight/hr). LPS was injected intravenously (100 micrograms/100 g body weight) 3 hr before the end of the saline or ETOH infusion. Kupffer and endothelial cells were isolated by collagenase-pronase digestion followed by centrifugal elutriation. PKC was assayed after extraction with digitonin containing buffer and partial purification on DE-52 cellulose minicolumns. LPS decreased PKC activity by 69% from control values. Although ETOH infusion alone did not affect PKC activity in Kupffer cells, it completely abrogated the LPS effect. A similar trend was observed for the endothelial cells. No significant differences were observed between groups with respect to the intracellular distribution of PKC. The down-regulation of PKC by LPS may represent a mechanism of functional adaptation of the immunocompetent cells to one of the cytokines, i.e., TNF, whose receptors are down regulated by activation of PKC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute ethanol intoxication prevents lipopolysaccharide-induced down regulation of protein kinase C in rat Kupffer cells. 155 4

The expression of certain proteolytic enzymes involved in cell migration (collagenase, urokinase) can be enhanced by the disruption of cellular cytoskeletal organization, suggesting an association between cell shape and gene expression. We have examined the effect of cytoskeleton-disrupting agents on the production and secretion of another proteolytic enzyme, tissue plasminogen activator (tPA), and its inhibitor, plasminogen activator inhibitor-1 (PAI-1), in human endothelial cells. Addition of 1 x 10(-6) M colchicine, 5 x 10(-6) M cytochalasin B, 10(-6) M nocodazole, or 10(-6) M tubulazole had no effect on the constitutive rate of release of tPA. However, the three microtubule-disrupting agents--colchicine, nocodazole, and tubulazole--depressed the stimulation of tPA secretion by phorbol myristate acetate (PMA) by 50- to 65%. Disruption of microfilament structure by cytochalasin B had no effect. In contrast, microtubule disruption in the absence or presence of PMA stimulated PAI-1 secretion by 2.5 and 2 times, respectively. The depression of tPA secretion was not due to inhibition of the secretory function since tPA did not accumulate intracellularly during colchicine treatment. Nor did colchicine affect the PMA activation of protein kinase C-alpha, upon which stimulation of tPA is dependent; neither translocation of the kinase nor phosphorylation of the protein kinase C substrate protein, P80, was inhibited. Measurement of tPA mRNA levels demonstrated that the increase which precedes PMA-enhanced tPA secretion was also inhibited by colchicine by 50%. However, tPA gene transcriptional activity was only reduced 13%, suggesting that a post-transcriptional event was affected by microtubule disruption. PAI-1 mRNA levels and transcription rates were elevated 3.5 times. This study suggests that the changes that occur in endothelial cells during PMA-induced signal transmission leading to enhanced tPA mRNA levels and tPA antigen production can be partly blocked by agents that disrupt microtubule organization.
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PMID:Disruption of microtubules inhibits the stimulation of tissue plasminogen activator expression and promotes plasminogen activator inhibitor type 1 expression in human endothelial cells. 163 33

The phosphorylation of diacylglycerol (DG), a reaction catalyzed by DG kinase, may be critical in the termination of effector-induced signals mediated by protein kinase C. Synapsin I is a principal target of intracellular protein kinases and is thought to be involved in the release of neurotransmitter from axon terminals. We present several lines of evidence which indicate that rat brain synapsin, in addition to this role, may function as a DG kinase. Purified rat brain DG kinase was digested with trypsin, which produced three major fragments whose sequence was identical to three regions in synapsin I. Using a rabbit anti-synapsin polyclonal antiserum, the elution profile of synapsin immunoreactivity coincided exactly with that of DG kinase activity in column fractions from the final step in the DG kinase purification procedure. As is the case with synapsin, the purified enzyme was a strongly basic protein with an isoelectric point greater than 10.0. Finally, incubating the DG kinase with highly purified bacterial collagenase, an enzyme that partially degrades the proline- and glycine-rich synapsin, resulted in the simultaneous loss of DG kinase activity and synapsin immunoreactivity. We conclude that cytosolic rat brain synapsin is capable of functioning as a DG kinase.
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PMID:Cytosolic rat brain synapsin I is a diacylglycerol kinase. 164 30

Phagocytosis of extracellular collagen by fibroblasts appears to be the principal pathway of collagen degradation in the physiological turnover of connective tissues. To study the mechanism of collagen phagocytosis, subconfluent gingival fibroblasts were serum-starved and incubated for up to 16 h with collagen-coated fluorescent latex beads. Internalization of beads was measured either by flow cytometry or by image analysis. Phagocytosis was blocked by inactivation of protein kinase C with staurosporin, and was also decreased significantly (32%) when cells were pre-incubated for 6h with cycloheximide. Phagocytosis of collagen-coated beads appeared to be receptor-mediated, since internalization was inhibited threefold by the cell-attachment blocking peptide (GRGDSP). The process of internalization was influenced by the type of collagen and its molecular structure. Thus, internalization was decreased in the order: type I greater than V greater than III collagen, and internalization of type I collagen was reduced significantly by digestion with either bacterial (45%) or vertebrate (38%) collagenase. However, collagen denaturation, which facilitates binding to fibronectin, did not effect internalization. Although concanavalin A stimulated both phagocytosis (71%) and collagenase synthesis, PMA and IL-1, which also increase collagenase expression, did not affect phagocytosis, indicating that phagocytosis of collagen-coated beads does not require collagenase. Moreover, analysis of tissue inhibitor of metalloproteinase expression revealed no difference between phagocytic and non-phagocytic cells. Collectively, these results demonstrate that collagen phagocytosis is regulated through protein kinase C and is also dependent upon cellular recognition and collagen structure, but not on the expression of collagenase.
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PMID:Mechanism of collagen phagocytosis by human gingival fibroblasts: importance of collagen structure in cell recognition and internalization. 165 Mar 78

The lapine synovial cell line HIG-82 secretes factors that activate cultures of articular chondrocytes. We showed that these "chondrocyte-activating factors" (CAF) also activate quiescent cultures of HIG-82 cells in an autocrine fashion. After exposure to partially purified preparations of CAF, HIG-82 cells increased their synthesis of prostaglandin E2 (PGE2) and the neutral proteinases collagenase, gelatinase, and stromelysin. CAF also induced their own synthesis. Both PGE2 synthesis and endogenous production of CAF started to increase between 1 and 3 h after treatment of cells with exogenous CAF, but the neutral proteolytic activity of the conditioned medium took approximately 12 h to increase. Induction of neutral proteinases by CAF was inversely related to the degree of cell confluency, whereas their induction by phorbol myristate acetate (PMA) was independent of this parameter. Both CAF and PMA provoked morphologic changes in subconfluent cultures of HIG-82 cells. Although the intracellular concentration of free Ca2+ increased rapidly in response to CAF, the results of experiments with calcium channel blockers and ionophores failed to support a role for Ca2+ fluxes in induction of neutral proteinases. In similar types of experiments, no evidence could be found to implicate fluxes in cyclic AMP or cyclic GMP in the induction of collagenase, gelatinase, or stromelysin. Because PMA is such a strong inducer of these enzymes, protein kinase C may be involved in signal transduction, but further work is needed to determine whether this is so.
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PMID:Studies on the autocrine activation of a synovial cell line. 165 86

Exposure of rat epididymal fat pad to phorbol 12-myristate 13-acetate (TPA), an activator of protein kinase C, results in an 85% increase in isoproterenol-stimulated cyclic AMP (cAMP) accumulation, an effect which was antagonized by H7, a protein kinase C inhibitor. This promoting action of TPA appears to be related to (i) an increase in the catalytic activity of adenylate cyclase, (ii) an increase in the maximal response of adenylate cyclase to fluoride and guanylimidodiphosphate (GppNHp) with no change in the EC50 value for GppNHp, and (iii) a reduction of the isoproterenol-stimulated low-Km cAMP phosphodiesterase activity present in the 30,000 g pellet of fat pad homogenates. In contrast with fat pads, exposure of isolated rat fat cells to TPA failed to influence their adenylate cyclase response to GppNHp and their cAMP accumulation and lipolysis. However, the other alterations caused by TPA in fat pads were still observed in fat cells. These results suggest that (i) the major alteration responsible for the promoted isoproterenol-stimulated cAMP response observed in fat pads after exposure to TPA is an increased interaction between the alpha s subunit of Gs and the catalytic site of adenylate cyclase and (ii) this increased interaction is dependent on protein kinase C activation and is abolished by collagenase digestion.
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PMID:Differential modulation of the adenylate cyclase/cyclic AMP stimulatory pathway by protein kinase C activation in rat adipose tissue and isolated fat cells. Influence of collagenase digestion. 165 98

The inward chloride current induced by angiotensin II (AII) in Xenopus oocytes shows strong and homologous desensitization, and was suggested to be mediated by phosphatidylinositol (PI) hydrolysis (Sakuta et al., 1991, Eur. J. Pharmacol. Mol. Pharmacol. 208, 31). As a model of agonist-induced desensitization of receptors coupled with PI hydrolysis, the mechanism of the desensitization of endogenous AII receptors in oocytes was investigated. Incubation of collagenase-treated oocytes with staurosporine significantly augmented the peak amplitude of AII responses, prolonged their duration, and increased the ratio of oocytes responsive to AII. Moreover, staurosporine-pretreatment made oocytes be consistently responsive to every application of AII. These effects of staurosporine were inhibited by incubation of staurosporine-treated oocytes with 12-O-tetradecanoylphorbol 13-acetate (TPA) but not with dibutyryl cAMP. TPA also attenuated AII responses in staurosporine-untreated control oocytes. These results suggest that staurosporine suppresses the desensitization of endogenous AII receptors in oocytes by blocking protein kinase C (PKC), and the desensitization is likely to be due to phosphorylation by PKC of the receptors or the molecules comprising an AII receptor complex.
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PMID:Desensitization of endogenous angiotensin II receptors in Xenopus oocytes: a role of protein kinase C. 165 20

To determine whether spontaneous contractile activity affected the expression of myosin heavy chain isoenzymes in cultured neonatal rat heart cells, ventricular myocytes were isolated from 2-day-old rat pups by collagenase digestion and cultured for 24-96 h in the presence and absence of verapamil (10 microM), KCl (50 mM), or dihydropyridine receptor antagonists that produced contractile arrest. Inhibition of spontaneous contractile activity was associated with significant reductions in total myosin heavy chain (MHC) content and synthetic rates. Electrophoretic analysis of MHC isoenzymes indicated that MHC-beta protein rapidly disappeared from arrested cells, whereas MHC-alpha isoenzyme levels were less affected. In association with these protein changes, mRNA transcript levels for MHC-beta were markedly reduced in quiescent cells, whereas mRNA transcript levels for several other contractile protein genes were relatively less affected. Inhibition of contractile activity and MHC-beta expression were reversible upon removal of the arresting agents. Furthermore, the decrease in MHC-beta mRNA levels in arrested myocytes could be prevented by direct activation of protein kinase C with phorbol 12-myristate 13-acetate (without restoration of contractile activity). Conversely, MHC-beta mRNA levels in beating cells were reduced by treatment with staurosporine (a selective protein kinase C inhibitor). Thus contractile arrest (produced by either L-channel blockade or membrane depolarization) inhibited the accumulation of MHC-beta in cultured neonatal rat heart cells via a pretranslational mechanism. These effects may occur in response to the modulation of signaling system(s) involving mechanical "stretch" transduced via protein kinase C.
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PMID:Contractile activity modulates myosin heavy chain-beta expression in neonatal rat heart cells. 171 69

Canine jejunal epithelial cells were isolated and maintained in short-term culture to study cholecystokinin (CCK) release. Sequential digestion of jejunal mucosa with collagenase and ethylenediaminetetraacetic acid was followed by counterflow elutriation to enrich CCK-containing cells. After 40 hours in culture on collagen-coated plates, 8.4% of the initially seeded cells were attached; 8.7% of them stained positive with a C-terminal CCK/gastrin antibody and 2.5% stained positive with a gastrin-specific antibody. Basal release of CCK into the culture medium amounted to 1.3% of total cell content over 105 minutes. Receptor-independent stimulation of protein kinase C by the phorbol ester beta-phorbol-12-myristate-13-acetate caused significant CCK release. The inactive form, 4 alpha-phorbol-12-myristate-13-acetate, had no effect. Activation of adenylate cyclase by 10(-5) mol/L forskolin evoked a 2.5-fold increase in CCK concentrations, which was completely abolished by 10(-8) mol/L somatostatin. L-phenylalanine stimulated CCK release at 20 and 50 mmol/L, whereas D-phenylalanine caused significant hormone output only at 50 mmol/L. L-tryptophan had no effect. Cholecystokinin release stimulated by L-phenylalanine was not influenced by the addition of either somatostatin or somatostatin antibody. In conclusion, a system of isolated canine jejunal epithelial cells was developed in short-term culture. This preparation proved suitable for the study of CCK release on a cellular basis.
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PMID:Cholecystokinin release from isolated canine epithelial cells in short-term culture. 172 60


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