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)

The KC gene, first identified in platelet-derived growth factor-stimulated BALB/c 3T3 cells, shares structural similarities with a new family of genes that code for secreted cytokines which appear to be involved in wound healing and inflammation. Thrombin is a coagulation system proteinase likely to be present in vivo at sites of tissue injury. This enzyme is known to stimulate multiple responses in cultured endothelial cells (EC), including the production of eicosanoids, the expression of growth factor genes and the adhesion of leukocytes. The present experiments were designed to examine the effect of thrombin on KC mRNA expression in EC and to explore the molecular mechanisms involved. Thrombin caused a marked concentration-dependent increase in the steady state level of KC mRNA in confluent porcine aortic EC. The level of KC mRNA reached a peak 2 h after thrombin treatment and returned to near control levels by 8 h. Thrombin that was pretreated with phenylmethylsulfonyl fluoride (PMSF) to block proteolytic activity did not stimulate KC gene expression. Trypsin (2 micrograms/ml) but not PSMF-trypsin also caused a substantial increase in the level of KC mRNA. We postulated a role for protein kinase C in thrombin-induced KC gene expression since previous work had demonstrated a similar EC response to phorbol esters. This hypothesis was further supported by the finding that thrombin-induced KC expression was suppressed by the C kinase inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine, but not by its structural analogue. The results of the present study demonstrate that thrombin augments KC mRNA expression by vascular EC in a process that requires intact proteinase activity. The activation of protein kinase C may be a necessary component of the intracellular signalling pathway involved in this response.
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PMID:Thrombin-induced expression of the KC gene in cultured aortic endothelial cells. Involvement of proteolytic activity and protein kinase C. 219 75

In cystic fibrosis (CF) phosphorylation-dependent activation of outwardly rectifying apical membrane Cl- channels is defective. To further understand regulation of this channel we examined several other mechanisms of channel activation in normal and CF cells. Previous studies have shown that strong membrane depolarization can activate channels in excised cell-free membrane patches. Here we show that such activation is dependent on both the absolute membrane voltage and the duration of depolarization. Moreover, activation was reversible by membrane hyperpolarization. In some cases, excising patches of membrane from the cell caused channel activation, even in the absence of depolarization. However, the frequency of channel activation with patch excision increased when bath temperature was increased from 23 to 37 degrees C. Although the channel remained in the activated state when temperature was reduced to 23 degrees C, subsequent hyperpolarization inactivated the channel. In cell-attached patches, neither depolarization nor increasing bath temperature to 37 degrees C activated channels, suggesting that neither is physiologically important in regulation of the channel. Thus changes in membrane voltage and bath temperature appear to cause a nonenzymatic change in the channel's conformation; the interactions between voltage and temperature suggest that they may affect the same process. To determine if a proteolytic alteration of the channel could also cause activation, we added trypsin to the cytosolic surface of excised membrane patches. Trypsin activated channels, which could not then be inactivated by either hyperpolarization or phosphorylation with PKC, suggesting that trypsin removed or altered a region of the channel involved in inactivation. All of these interventions activated Cl- channels from both normal and CF cells. Thus many aspects of Cl- channel activation are normal in CF; only phosphorylation-dependent activation is defective.
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PMID:Activation of normal and cystic fibrosis Cl- channels by voltage, temperature, and trypsin. 255 52

Monoclonal antibodies (mAbs) which distinguish Type 3 protein kinase C (PKC) from Types 1 and 2 have been obtained from mice immunized with purified Type 3 PKC from rabbit brain cytosol. Most of these mAbs (seven out of eight) selectively recognize Type 3 versus Types 1 and 2 PKC in both enzyme-linked immunosorbent and immunoblot assays. Trypsin treatment of Type 3 PKC reduced the immunoreactivity with 82-kDa PKC and generated immunoreactive fragments of 45 and 35 kDa. The mAbs can be divided into two classes based on their ability to recognize the 45-kDa catalytic fragment (5/8) or the 35 kDa regulatory domain fragment (3/8). Each of the mAbs inhibits phosphorylation of histone or lipocortin by PKC, although the extent of the inhibition varied. Only those mAbs that recognize the 35-kDa regulatory domain inhibited phorbol ester binding. The inhibition of both kinase and binding activities by this group of mAbs was sensitive to the concentration of phospholipid used in the assay. This functional inhibition suggests that these mAbs may be useful for defining the phospholipid binding domain(s) of Type 3 PKC. The mAbs recognized 82-kDa PKC in a variety of cell types; the presence of smaller molecular weight fragments was not consistently found. Distinct immunofluorescence staining patterns were observed with mAbs directed toward different epitopes, suggesting that there may be heterogeneity in the subcellular localization of PKC. The type specificity of these mAbs will make them valuable tools for studying activation and regulation of Type 3 PKC in cell culture model systems.
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PMID:Monoclonal antibodies specific for type 3 protein kinase C recognize distinct domains of protein kinase C and inhibit in vitro functional activity. 297 Oct 38

1. Catecholamine secretion from digitonin-treated chromaffin cells is stimulated directly by micromolar Ca2+ in the medium. The permeabilized cells are leaky to proteins. 2. In this study trypsin (30-50 micrograms/ml) added to cells after digitonin treatment completely inhibited subsequent Ca2+-dependent catecholamine secretion. The same concentrations of trypsin did not inhibit secretion from permeabilized cells if trypsin was present only prior to cell permeabilization. 3. The data indicate that trypsin entered digitonin-treated chromaffin cells which were capable of undergoing secretion and that an intracellular, trypsin-sensitive protein is involved in secretion. Chymotrypsin was less potent but had effects similar to those of trypsin. 4. The enhancement of Ca2+-dependent secretion from permeabilized chromaffin cells induced by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) was inhibited by trypsin added simultaneously with Ca2+ to permeabilized cells at concentrations (3-10 micrograms/ml) which had little or no effect on Ca2+-dependent secretion from cells untreated with TPA. Ca2+-dependent secretion in TPA-treated cells was reduced by trypsin only to the level that would have occurred in cells not treated with TPA. Trypsin reduced the large TPA-induced increment of membrane-bound protein kinase C.
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PMID:Effects of trypsin on secretion stimulated by micromolar Ca2+ and phorbol ester in digitonin-permeabilized adrenal chromaffin cells. 340 99

Soluble extracts from nerve growth factor (NGF)-stimulated PC12 cells prepared by alkaline lysis show a two- to 10-fold greater ability to phosphorylate the 40S ribosomal protein S6 than do extracts from control cells. The alkaline lysis method yields a preparation of much higher specific activity than does sonication. Half-maximal incorporation of 32P from [32P]ATP into S6 occurred after 4-7 min of NGF treatment. The partially purified NGF-sensitive S6 kinase has a molecular weight of 45,000. It is not inhibited by NaCl, chlorpromazine, or the specific inhibitor of cyclic AMP (cAMP)-dependent protein kinase, nor is it activated by addition of diolein plus phosphatidylserine. Trypsin treatment of either crude extracts or partially purified S6 kinase from control or NGF-treated cells was without effect. These data suggest that the S6 kinase stimulated by NGF is neither cAMP-dependent protein kinase or protein kinase C nor the result of tryptic activation of an inactive proenzyme. Treatment of intact cells with dibutyryl cAMP or 5'-N-ethylcarboxamideadenosine also increases the subsequent cell-free phosphorylation of S6. This observation suggests that cAMP-dependent protein kinase may be involved in the phosphorylation of S6 kinase.
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PMID:A nerve growth factor-sensitive S6 kinase in cell-free extracts from PC12 cells. 377 74

Treatment of 3T3-L1 cells with 0.1-1.0 nM insulin results in rapid (5-15 min) activation of a soluble protein kinase that phosphorylates serine residues in ribosomal protein S6. The insulin-stimulated kinase activity is detectable in confluent, nongrowing preadipocytes and adipocytes. In the presence of 2 micrograms of cycloheximide per ml, preconfluent 3T3-L1 cells also respond to insulin by acquiring an S6 kinase activity whose properties are the same as those of the enzyme activity elicited by insulin alone in growth-inhibited cells. The principal insulin-stimulated S6 kinase has a Mr of approximately equal to 50,000-60,000; there is a variable amount of activity that sediments with a Mr of about 80,000. The soluble enzyme exhibits optimal activity between pH 8 and pH 9, requires Mg2+ (10-20 mM), and is inhibited by Ca2+ (0.5 mM), Mn2+ (0.05 mM), and NaF (30 mM). GTP cannot substitute for ATP in the phosphotransferase reaction; cAMP, cGMP, phosphatidylserine plus diolein, the cAMP-dependent protein kinase inhibitor, and heparin (0.7 micrograms/ml) are without effect. Although treatment of 3T3-L1 cells with insulin does not influence the activity or the subcellular distribution of the phospholipid and Ca2+-dependent protein kinase C, exposure to the phorbol tumor promoter phorbol 12-myristate 13-acetate (PMA) results in translocation of protein kinase C to the membrane and activation of a soluble phospholipid and Ca2+-independent S6 protein kinase that has the same magnitude of activity and sedimentation behavior as the insulin-induced activity. Trypsin treatment of either 3T3-L1 cytosolic extracts or partially purified 3T3-L1 protein kinase C generates a small amount of S6 kinase activity of Mr 50,000. This activity, resolved by sucrose gradient centrifugation, is less active than that elicited by either insulin or PMA and, unlike the activities generated by insulin and PMA, is associated with histone kinase activity. The data suggest that the S6 kinase elicited by either insulin or PMA is neither protein kinase C, its phospholipid, and Ca2+-independent proteolytic derivative nor the result of proteolytic activation of an inactive proenzyme that can be reproduced by trypsin treatment of cell extracts in vitro.
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PMID:Activation of S6 kinase activity in 3T3-L1 cells by insulin and phorbol ester. 389 33

A phosphorylated form of alpha-Gi-2 (the alpha-subunit of Gi-2), immunoprecipitated from hepatocytes under basal conditions, migrated as a single species of pI approximately 5.7, the labelling of which increased approximately 2-fold in cells challenged with either vasopressin or phorbol 12-myristate 13-acetate (PMA); agents which activate protein kinase C. In contrast, treatment of hepatocytes with 8-bromo-cyclic AMP produced a more acidic species of phosphorylated alpha-Gi-2 having a pI of approximately 5.4 and whose labelling was increased approximately 3-fold. Trypsin digestion of labelled alpha-Gi-2 isolated from hepatocytes under basal conditions identified, on two-dimensional peptide analyses, three positively charged phosphoserine-containing peptides (C1, C2 and C3), with only peptides C1 and C2 being evident upon less extensive digestion with trypsin. These are suggested to reflect a single site of phosphorylation, with proteolysis by trypsin being incomplete, and where C2 is larger than C1, which is larger than C3. An identical pattern of tryptic phosphopeptides was seen in hepatocytes treated with either vasopressin or PMA, although labelling of this group of peptides was increased by approximately 2-fold compared with the basal state. In contrast, treatment of hepatocytes with glucagon, 8-bromo-cyclic AMP or forskolin not only resulted in increased labelling of the 'basal' sites approximately 3-fold, but identified a novel positively charged tryptic phosphoserine-containing peptide (AN). All four tryptic peptides were susceptible to proteolysis by V8 protease. Treatment of labelled alpha-Gi-2 from basal and PMA-treated cells produced a pattern of peptides which was identical with those found when the tryptic phosphopeptide was treated with V8 protease. We tentatively suggest that, on alpha-Gi-2, Ser144 is phosphorylated through the action of protein kinase C and Ser207 is phosphorylated upon elevation of the intracellular concentrations of cyclic AMP.
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PMID:Multi-site phosphorylation of the inhibitory guanine nucleotide regulatory protein Gi-2 occurs in intact rat hepatocytes. 805 95

The aim of the present study was to clarify the control of Na+/H+ exchange in platelets activated via the thrombin receptor. When human BCECF-loaded platelets were stimulated with the thrombin-receptor-activating peptide (TRAP; amino acid sequence SFLLRN), which activates the receptor independently of proteolysis, the cytosolic pH (pHi) rose from 7.13 +/- 0.04 (n = 6) to 7.27 +/- 0.04 (n = 5), followed by a rapid decrease to resting values. Trypsin, which cleaves the receptor, induced a rapid and irreversible rise in pHi to 7.31 +/- 0.06 (n = 5). gamma-Thrombin, which cleaves the receptor but is unable to bind to the hirudin-like domain, induced a slow and irreversible rise in pHi to 7.31 +/- 0.04 (n = 14). alpha-Thrombin, which cleaves the receptor and binds to its hirudin-like domain, induced a rapid and irreversible rise in pHi to 7.31 +/- 0.04 (n = 22). Changes in pHi induced by TRAP, trypsin, gamma- and alpha-thrombin were accompanied by similar changes in cytosolic Ca2+ concentration ([Ca2+]i) and 32P-pleckstrin, a substrate of protein kinase C (PKC). The separate chelation of Ca2+i (30 microM BAPTA-AM) or inhibition of PKC (1 microM staurosporine) induced about 50% inhibition of the pHi responses triggered by TRAP, trypsin, gamma- and alpha-thrombin, but the combination induced complete inhibition. Thus the different types of activation of the thrombin receptor control Na+/H+ exchange via the same mechanism. Binding of thrombin to the hirudin-like domain accelerates exchange activation, whereas proteolysis of the receptor is essential for a sustained increase in pHi.
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PMID:Different pathways for control of Na+/H+ exchange via activation of the thrombin receptor. 828 Jan 10

The receptor for hepatocyte growth factor/scatter factor (HGF/SF) is an alpha beta tyrosine kinase of 190 kDa which mediates growth and motility in several cell types. We have previously shown that tyrosine autophosphorylation enhances the receptor kinase activity, while serine phosphorylation by protein kinase C or other Ca(2+)-dependent kinase(s) is inhibitory. We now identify Ser985 as the major phosphorylation site for the protein kinases responsible for such inhibition. Both phorbol esters or Ca2+ ionophore treatment induces phosphorylation of the same tryptic phosphopeptide corresponding to the sequence Leu983-Arg987 located in the juxta-membrane domain of the receptor beta chain. Purified protein kinase C phosphorylates in vitro a synthetic peptide (V14S) including Ser985. Trypsin digestion of the phosphorylated V14S generates a single phosphopeptide comigrating in reverse-phase high performance liquid chromatography with the tryptic peptide phosphorylated in vivo. Phorbol ester treatment of cultured cells inhibits the ligand-induced tyrosine autophosphorylation of the receptor. In vitro, Ser985 phosphorylation inhibits the receptor tyrosine kinase activity on exogenous substrates. Substitution of Ser985 by site-directed mutagenesis results in increased tyrosine phosphorylation of the receptor and abolishes down-modulation by protein kinase C. These data show that phosphorylation of Ser985 is a key mechanism for the negative regulation of HGF/SF receptor.
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PMID:Phosphorylation of serine 985 negatively regulates the hepatocyte growth factor receptor kinase. 829 30

Proteinase-activated receptor-2 (PAR-2) is a G-protein-coupled receptor that is expressed by intestinal epithelial cells, which are episodically exposed to pancreatic trypsin in the intestinal lumen. Trypsin cleaves PAR-2 to expose a tethered ligand, which irreversibly activates the receptor. Thus, PAR-2 may desensitize and resensitize by novel mechanisms. We examined these mechanisms in kidney epithelial cells, stably expressing human PAR-2, and intestinal epithelial cells, which naturally express PAR-2. Trypsin stimulated a prompt increase in [Ca2+]i, due to mobilization of intracellular Ca2+, followed by a sustained plateau, due to influx of extracellular Ca2+. Repeated application of trypsin caused marked desensitization of this response, which is due in part to (a) irreversible cleavage of the receptor by trypsin and (b) protein kinase C-mediated termination of signaling. Trypsin exposure resulted in internalization of PAR-2 into early endosomes and then lysosomes; but endocytosis was not the mechanism of rapid desensitization. Thus, activated PAR-2 is endocytosed and degraded. The Ca2+ response to trypsin resensitized by 60-90 min. Brefeldin A, which disrupted Golgi stores of PAR-2, and cycloheximide, which inhibited protein synthesis, markedly attenuated resensitization. Thus, PAR-2-mediated Ca2+ mobilization desensitizes by irreversible receptor cleavage, protein kinase C-mediated termination of signaling, and PAR-2 targeting to lysosomes. It resensitizes by mobilization of large Golgi stores and synthesis of new receptors.
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PMID:Mechanisms of desensitization and resensitization of proteinase-activated receptor-2. 870 6


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