Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat astrocytes synthesize and secrete two types of plasminogen activators (PAs), tissue-type plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA), whose functions are related to cell proliferation, migration, and differentiation during development. The regulation of PAs produced by brain astrocytes is poorly understood. In a previous report we demonstrated that t-PA and u-PA are each independently regulated by cAMP-dependent protein kinase and protein kinase-C. In the present study we examined the effects of three well characterized astrocyte mitogens, insulin-like growth factor-I (IGF-I), epidermal growth factor (EGF), and platelet-derived growth factor (PDGF), on the PA activities produced and secreted by rat astrocytes in vitro. We found that IGF-I and EGF increase cell-associated total PA activity in astrocyte-conditioned medium (CM). The effects of both growth factors were dose and time dependent, and maximal stimulation was achieved after 72 h of treatment with the highest dose tested (100 nM). IGF-I stimulated the cell-associated PA activity more than the CM activity, whereas EGF showed an opposite pattern, suggesting that the secretion of PA is differentially modulated by IGF-I and EGF. PDGF had no effect on astrocyte PA activities at any dose or time point included in the study. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis/zymography showed type-specific changes in CM and cell-associated PA activity after growth factor treatment. IGF-I stimulated only t-PA, whereas EGF induced a marked increase in u-PA activity and a more limited increase in t-PA. PDGF did not modify either t-PA or u-PA activity. In summary, our results show that IGF-I and EGF each had different effects on PA activities, whereas PDGF had no effect. This diversity in the patterns of growth factor regulation of PAs suggests that the production of astrocyte PAs is not simply related to mitogenesis. More likely, astrocyte PAs are involved in a wide range of growth factor-mediated actions in the developing brain.
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PMID:Differential regulation of astrocyte plasminogen activators by insulin-like growth factor-I and epidermal growth factor. 819 86

Vitronectin, found in the extracellular matrix and in circulating blood, has an important role in the control of plasminogen activation. It was shown to be the major protein substrate in human blood fluid for a protein kinase A (PKA) released from platelets upon their physiological stimulation with thrombin. Since vitronectin was shown to have only one PKA phosphorylation site, but to contain 2-3 mol covalently bound phosphate, it was reasonable to assume that other protein kinases might phosphorylate vitronectin at other sites in the protein. We have reported earlier that human serum contains at least three protein kinases, one of which was found to be cAMP independent and to phosphorylate a repertoire of plasma proteins that was very similar to that obtained upon phosphorylation of human plasma with protein kinase C (PKC). Since there are now several examples of proteins with extracellular functions that are phosphorylated by PKC, we undertook to study the phosphorylation of vitronectin by PKC. Here, we show that vitronectin is a substrate for PKC, and characterize the kinetic parameters of this phosphorylation (Km approximately tenfold lower than the concentration of vitronectin in blood), indicating that, from the biochemical point of view, this phosphorylation can occur at the locus of a hemostatic event. We also identify Ser362 as the major PKC phosphorylation site in vitronectin, and confirm this localization by means of synthetic peptides derived from the cluster of basic amino acids in vitronectin surrounding Ser362. We show that the PKC phosphorylation at Ser362 alters the functional properties of vitronectin, attenuating its cleavage by plasmin at Arg361-Ser362. This phosphorylation has the potential to regulate plasmin production from plasminogen by a feedback mechanism involving the above-mentioned plasmin cleavage, a loosening of the vitronectin grip on inhibitor 1 of plasminogen activators, and a subsequent latency of this regulatory inhibitor.
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PMID:Phosphorylation of vitronectin on Ser362 by protein kinase C attenuates its cleavage by plasmin. 903 Jul 77

We have previously reported that the serine protease plasmin generated during contact activation of human plasma triggers biosynthesis of leukotrienes (LTs) in human peripheral monocytes (PMs), but not in polymorphonuclear neutrophils (PMNs). We now show that purified plasmin acts as a potent chemoattractant on human monocytes, but not on PMNs. Human plasmin or plasminogen activated with urokinase, but not active site-blocked plasmin or plasminogen, elicited monocyte migration across polycarbonate membranes. Similarly, stimulation of monocytes with plasmin, but not with active site-blocked plasmin or plasminogen, induced actin polymerization. As assessed by checkerboard analysis, the plasmin-mediated monocyte locomotion was a true chemotaxis. The plasmin-induced chemotactic response was inhibited by the lysine analog trans-4-(aminomethyl)cyclohexane-1-carboxylic acid (t-AMCA), which prevents binding of plasmin/ogen to the appropriate membrane binding sites. In addition, active site-blocked plasmin inhibited monocyte migration triggered by active plasmin. Further, plasmin-induced monocyte chemotaxis was inhibited by pertussis toxin (PTX) and 1-O-hexadecyl-2-O-methyl-rac-glycerol (HMG) and chelerythrine, two structurally unrelated inhibitors of protein kinase C (PKC). Plasmin, but not active site-blocked plasmin or plasminogen, triggered formation of cyclic guanosine monophosphate (cGMP) in monocytes. LY83583, an inhibitor of soluble guanylyl cyclase, inhibited both plasmin-induced cGMP formation and the chemotactic response. The latter effect could be antagonized by 8-bromo-cGMP. In addition, KT5823 and (Rp)-8-(p-chlorophenylthio)guanosine-3',5'-cyclic monophosphorothioate [(Rp)-8-pCPT-cGMPs], two structurally unrelated inhibitors of cGMP-dependent protein kinase, inhibited plasmin-mediated monocyte chemotaxis. Thus, beyond being a stimulus for lipid mediator release, plasmin is a potent and specific chemoattractant for human monocytes acting via a cGMP-dependent mechanism. Therefore, plasmin represents a proinflammatory activator for human monocytes.
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PMID:Plasmin is a potent and specific chemoattractant for human peripheral monocytes acting via a cyclic guanosine monophosphate-dependent pathway. 919 82

Sertoli cells secrete plasminogen activators (PAs) on both sides of the blood-testis barrier, i.e., in the basal and apical compartments of the seminiferous tubules, whereas peritubular cells secrete plasminogen activator inhibitor-1 (PAI-1), a fast-acting and specific PA inhibitor. While it is likely that PAI-1 produced by peritubular cells counteracts the basal secretion of PA, the nature of the PA inhibitor acting in the apical compartment remains to be demonstrated. In the present study, we showed that Sertoli cells recovered from 20-day-old rats and cultured contained a transcript of 3-3.2 kilobases, which hybridized specifically to a PAI-1 cDNA probe (Northern blot). We verified that the observed PAI-1 transcript could not result solely from the peritubular cells (weakly contaminating the Sertoli cell cultures), by comparing PAI-1 mRNA levels of Sertoli and peritubular cells recovered from 20-day-old rats and cultured. We also demonstrated that cultured Sertoli cells secreted a protein that complexed with tissue-type PA (zymography), indicating that it was biologically active. This protein comigrated with purified PAI-1 as a doublet of 46 and 49 kDa (Western blot). The trophic hormone FSH decreased PAI-1 messenger RNA as well as immunoreactive PAI-1 protein (probably via the cAMP protein kinase A pathway), whereas transforming growth factor ss1 and basic fibroblast growth factor (in a nanomolar concentration) increased both of these. These observations support the hypothesis that PAI-1 is expressed by Sertoli cells and is under a complex hormonal (FSH) and paracrine and/or autocrine control exerted at least by basic fibroblast growth factor and transforming growth factor ss1.
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PMID:Plasminogen activator inhibitor-1 is expressed in cultured rat Sertoli cells. 971 58

Angioplasty is a principal treatment for occlusive vascular disease but 30-50% of patients show a restenosis of the vessel. There is no clinical effective therapy for this disease. It has been demonstrated, in animal models, that various drugs such as NO-donor, plasminogen inhibitor tranexamic acid and MMP (matrix metalloproteinases) reduce the rate of restenosis. Other therapeutic approaches are cytotoxic therapy, and strategies to inhibit cell cycle progression. Systemic administration of conventional pharmacologic agents inhibit cell cycle kinases and vascular lesion formation in animal models. As cell cycle progression is accompanied by fluctuations in the concentration of adenosine 3',5-monophospate (cAMP) and in the activity of the cAMP dependent protein kinase (PKA), local administration of cAMP and phospodiesterase-inhibitor drugs (aminophylline or amrinone) markedly inhibit neointima formation. The successful use of local radiation therapy to inhibit neointima formation after vascular injury may reflect a similar combination of cell-cycle arrest and vascular cell apoptosis. The most effective therapy for occlusive vascular disease will likely combine intravascular stenting with an antiproliferative therapy.
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PMID:Mechanisms of restenosis after angioplasty and approach to therapy (Review). 985 80

Physiological stimulation of platelets with thrombin brings about the release of protein kinase A (PKA) into the plasma. In human blood, this kinase singles out and phosphorylates vitronectin (Vn), a multifunctional regulatory protein, which was proposed to play an important role in the control of fibrinolysis. Here we present immuno-cytochemical evidence to show: (i) that intact platelets possess on their surface an ecto-PKA which can preferentially phosphorylate Vn; (ii) that in the resting platelet, both the catalytic and the regulatory subunits of PKA are present on the platelet surface, in the surface-connected canalicular system, and within the alpha-granules of the platelets; (iii) that the process initiated upon platelet activation, which leads to the formation of fibrin fibers and consequently forms the fibrin net, is accompanied by a translocation of PKA, of Vn, and of PAI-1 onto the fibrin fibers. We propose that the localization and the translocation of these proteins in the fibrin net, together with our finding that PKA phosphorylation of Vn reduces its grip of PAI-1, can unleash PAI-1 in its free form. The free PAI-1 can then assume its latent (non inhibitory) conformation, allow plasminogen activators to trigger the formation of active plasmin, and to initiate fibrinolysis.
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PMID:Localization of protein kinase A and vitronectin in resting platelets and their translocation onto fibrin fibers during clot formation. 1121 39

Vitronectin (Vn) stabilizes the inhibitory form of plasminogen activator inhibitor-1 (PAI-1), an important modulator of fibrinolysis. We have previously reported that Vn is specifically phosphorylated by PKA (at Ser378), a kinase we have shown to be released from platelets upon their physiological activation. Here we describe the molecular consequences of this phosphorylation and show (by circular dichroism, and by phosphorylation with casein kinase II) that it acts by modulating the conformation of Vn. The PKA phosphorylation of Vn is enhanced in the presence of either PAI-1, or heparin, or both. This enhanced phosphorylation occurs exclusively on Ser378 as shown with the Vn mutants Ser378Ala and Ser378Glu. The binding of PKA phosphorylated Vn to immobilized PAI-1 and to immobilized plasminogen is shown to be lower than that of Vn. The evidence compiled here suggests that this phosphorylation of Vn can modulate plasminogen activation and consequently control fibrinolysis.
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PMID:The PKA phosphorylation of vitronectin: effect on conformation and function. 1179 78

Altered expression of alphav integrins plays a critical role in tumor growth, invasion, and metastasis. In this study, we show that normal human epithelial ovarian cell line, HOSE, and ovarian cancer cell lines, OVCA 429, OVCA 433, and OVHS-1, expressed alphav integrin and associated beta1, beta3, and beta5 subunits, but only ovarian cancer cell lines OVCA 429 and OVCA 433 expressed alphavbeta6 integrin. The expression of alphavbeta6 in OVCA 429 and OVCA 433 was far higher than alphavbeta3 and alphavbeta5 integrin and correlated with high p42/p44 mitogen activated protein kinase (MAPK) activity and high secretion of high molecular weight urokinase plasminogen activator (HMW-uPA), pro-metalloproteinase 2 and 9 (pro-MMP-9 and pro-MMP-2). In contrast to HOSE and OVHS 1, OVCA 433 and OVCA 429 exhibited approximately 2-fold more plasminogen-dependent [3H]-collagen type IV degradation. Plasminogen-dependent [3H]-collagen IV degradation was inhibited by inhibitor of uPA (amiloride) and MMP (phenanthroline) and by antibodies against uPA or MMP-9 or alphavbeta6 integrin, indicating the involvement of alphavbeta6 integrin, uPA and MMP-9 in the process. The alphavbeta6 correlated increase in HMW-uPA and pro-MMP secretion could be inhibited by tyrosine kinase inhibitor genistein or the MEK 1 inhibitor U0126, consistent with a role of active p42/44 MAPK in the elevation of uPA, MMP-9, and MMP-2 secretion. Under similar conditions, genistein and U0126 inhibited plasminogen-dependent [3H]-collagen type IV degradation. These data suggest that sustained elevation of p42/44 MAPK activity may be required for the co-expression of alphavbeta6 integrin, which in turn may regulate the malignant potential of ovarian cancer cells via proteolytic mechanisms.
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PMID:Association between alphavbeta6 integrin expression, elevated p42/44 kDa MAPK, and plasminogen-dependent matrix degradation in ovarian cancer. 1183 93

Hepatocyte growth factor (HGF) was purified as a potent mitogen for rat hepatocytes in primary culture and is believed to be the most physiological hepatotrophic factor that triggers liver regeneration. HGF is one of the largest disulfide-linked cytokines, consisting of a 60-kDa heavy chain and a 35-kDa light chain. Human HGF is synthesized as a single polypeptide chain precursor of 728 amino acid residues that has an appreciable homology with plasminogen, and it is processed proteolytically to release an N-terminal signal peptide of 31 amino acids and to generate an active heterodimer after secretion. The novel serine protease HGF activator and urokinase-type plasminogen activator (u-PA) are responsible for the latter extracellular processing. HGF stimulates the proliferation of rat hepatocytes in primary culture at concentrations as low as 10 pM. It also stimulates the growth of various epithelial cells, endothelial cells, and some kinds of mesenchymal cells. HGF inhibits the proliferation of several tumor cell lines and induces apoptosis of some of them. It also has motogenic, morphogenic, anti-apoptotic, angiogenic, and immunoregulatory activities. The receptor of HGF is the product of c-met proto-oncogene with tyrosine kinase activity that mediates the transduction of multiple biological signals of HGF. During liver regeneration, HGF gene expression in the liver, spleen, and lung and HGF levels in the blood and liver increase prior to the induction of liver DNA synthesis. Liver regeneration is markedly inhibited by continuous administration of a neutralizing anti-HGF antibody. HGF production in cultured cells is induced by PKC-activating agents, cAMP-elevating agents, PKA-activating agents, growth factors, and inflammatory cytokines; and it is inhibited by TGF-beta, glucocorticoids, 1,25-dihydroxyvitamin D3, and retinoic acid. There are many reports on potential application of HGF as a therapeutic agent for organ diseases that are difficult to cure such as liver cirrhosis, chronic renal failure, pulmonary fibrosis, myocardial infarction, and arteriosclerosis obliterans utilizing its potent growth-stimulating activity for a wide variety of cells. ELISA kits for assays of serum and plasma HGF levels are clinically used to prognosticate the development of fulminant hepatic failure.
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PMID:[Function and regulation of production of hepatocyte growth factor (HGF)]. 1206 Nov 40

The factor VII activating protease (FSAP) is a serine-protease present in human plasma that serves to activate single-chain plasminogen activators, as well as coagulation factor VII. FSAP was localized within atherosclerotic lesions, and a genetic polymorphism in FSAP is associated with carotid stenosis. Hence, this study was conducted to gain broader insights into the cellular effects of FSAP on vascular smooth muscle cells (VSMC). DNA synthesis and cell proliferation assays revealed an inhibitory action of FSAP on platelet-derived growth factor BB (PDGF-BB)-mediated proliferation of VSMC. FSAP also inhibited PDGF-BB-induced migration of VSMC. These cellular effects of FSAP could be neutralized by an anti-FSAP mAb as well as by protease inhibitors such as aprotinin or a chloromethylketone inhibitor. Moreover, unfractionated heparin promoted the antiproliferative effect of FSAP on VSMC and was essential for the inhibition of VSMC migration. FSAP inhibited PDGF-BB binding to human VSMC and concomitantly blocked PDGF-BB-dependent phosphorylation of mitogen activated protein kinase p42/p44 and tyrosine phosphorylation of other proteins. These results unravel a new function of FSAP as an inhibitor of the proatherogenic phenotype of vascular smooth muscle.
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PMID:Factor VII-activating protease (FSAP) inhibits growth factor-mediated cell proliferation and migration of vascular smooth muscle cells. 1497 86


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