Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously reported that the serine protease plasmin triggers chemotaxis in human peripheral monocytes, but not in polymorphonuclear leukocyte. We now show that the structurally related lipoprotein(a) (Lp[a]) as well as recombinant apolipoprotein(a) (apo[a]) trigger chemotactic responses in human monocytes equipotent to that observed with the standard chemoattractant FMLP. The chemotactic effects of Lp(a) and FMLP were additive. Low density lipoprotein (LDL) did not elicit any significant chemotactic response nor did it interfere with that triggered by Lp(a). As assessed by checkerboard analysis, Lp(a)-mediated monocyte locomotion was a true chemotaxis. Both plasminogen as well as catalytically inactivated plasmin inhibited monocyte migration elicited by Lp(a), suggesting binding of Lp(a) to plasminogen binding sites. Lp(a)-mediated signaling proceeds through a pertussis toxin-sensitive guanosine triphosphate (GTP)-binding protein and activation of protein kinase C as implicated by the effects of 1-O-hexadecyl-2-O-methyl-rac-glycerol and chelerythrine. Lp(a) induced generation of guanosine 3',5'-cyclic monophosphate (cGMP), apparently crucial for the Lp(a)-mediated chemotaxis, because an inhibitor of soluble guanylyl cyclase, LY83583, reduced both the Lp(a)-induced cGMP formation as well as the monocyte migration. The latter effect of LY83583 was antagonized by the stable cGMP analog 8-pCPT-cGMP. The data indicate that Lp(a) triggers chemotaxis in human monocytes by way of a cGMP-dependent mechanism. Our findings may have important implications for the atherogenesis associated with elevated levels of Lp(a).
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PMID:Lipoprotein(a) is a potent chemoattractant for human peripheral monocytes. 929 39

The serine proteinases plasmin and thrombin convert proenzyme matrix metalloproteinases (MMPs) into catalytically active forms. In addition, we demonstrate that plasmin(ogen) and thrombin induce a significant increase in secretion of activated murine macrophage elastase (MMP-12) protein. Active serine protease is responsible for induction, as demonstrated by the absence of MMP-12 induction in plasminogen(Plg)-treated urokinase-type plasminogen activator-deficient macrophages. Since increased MMP-12 protein secretion was not accompanied by an increase in MMP-12 mRNA, we examined post-translational mechanisms. Protein synthesis was not required for early release of MMP-12 but was required for later secretion of activated enzyme. Immunofluorescent microscopy demonstrated basal expression in macrophages that increased following serine proteinase exposure. Inhibition of MMP-12 secretion by hirudin and pertussis toxin demonstrated a role for the thrombin G protein-coupled receptor (protease-activated receptor 1 (PAR-1)). PAR-1-activating peptides were able to induce MMP-12 release. Investigation of signal transduction pathways involved in this response demonstrate the requirement for protein kinase C, but not tyrosine kinase, activity. These data demonstrate that plasmin and thrombin regulate MMP-12 activity through distinct mechanisms: post-translational secretion of preformed MMP-12 protein, induction of protein secretion that is protein kinase C-mediated, and extracellular enzyme activation. Most importantly, we show that serine proteinase MMP-12 regulation in macrophages occurs via the protein kinase C-activating G protein-coupled receptor PAR-1.
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PMID:Proteinase-activated receptor-1 regulation of macrophage elastase (MMP-12) secretion by serine proteinases. 1099 90

We have established that treatment of cultured human skin fibroblasts with tropoelastin or with heterogenic peptides, obtained after organo-alkaline or leukocyte elastase hydrolysis of insoluble elastin, induces a high expression of pro-collagenase-1 (pro-matrix metalloproteinase-1 (pro-MMP-1)). The identical effect was achieved after stimulation with a VGVAPG synthetic peptide, reflecting the elastin-derived domain known to bind to the 67-kDa elastin-binding protein. This clearly indicated involvement of this receptor in the described phenomenon. This notion was further reinforced by the fact that elastin peptides-dependent MMP-1 up-regulation has not been demonstrated in cultures preincubated with 1 mm lactose, which causes shedding of the elastin-binding protein and with pertussis toxin, which blocks the elastin-binding protein-dependent signaling pathway involving G protein, phospholipase C, and protein kinase C. Moreover, we demonstrated that diverse peptides maintaining GXXPG sequences can also induce similar cellular effects as a "principal" VGVAPG ligand of the elastin receptor. Results of our biophysical studies suggest that this peculiar consensus sequence stabilizes a type VIII beta-turn in several similar, but not identical, peptides that maintain a sufficient conformation to be recognized by the elastin receptor. We have also established that GXXPG elastin-derived peptides, in addition to pro-MMP-1, cause up-regulation of pro-matrix metalloproteinase-3 (pro-stromelysin 1). Furthermore, we found that the presence of plasmin in the culture medium activated these MMP proenzymes, leading to a consequent degradation of collagen substrate. Our results may be, therefore, relevant to pathobiology of inflammation, in which elastin-derived peptides bearing the GXXPG conformation (created after leukocyte-dependent proteolysis) bind to the elastin receptor of local fibroblasts and trigger signals leading to expression and activation of MMP-1 and MMP-3, which in turn exacerbate local connective tissue damage.
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PMID:Conformational dependence of collagenase (matrix metalloproteinase-1) up-regulation by elastin peptides in cultured fibroblasts. 1108 20

Treatment of cultured bovine carotid artery endothelial cells with 0.1 &mgr;M human plasmin has been reported to induce a receptor-mediated short burst of arachidonate release, which is a pertussis toxin-sensitive and extracellular calcium-dependent reaction. Plasmin-induced calcium influx in cells was significantly inhibited by pretreatment with pertussis toxin, indicating that the former was coupled with a pertussis toxin-sensitive guanosine 5'-triphosphate (GTP)-binding protein. Plasmin significantly induced the formation of lysophosphatidylcholine but not lysophosphatidylethanolamine. A cellular phospholipase A(2) with an arachidonyl specificity at the sn-2 position of phosphatidylcholine, which required submicromolar calcium, was identified as a cytosolic phospholipase A(2) by immunoblot analysis. By a cell-free enzyme activity assay and immunoblot analysis, plasmin was found to induce a translocation of the cytosolic phospholipase A(2) from the cytosol to the membrane. Taken together, the results suggest that plasmin bound to its putative receptor and activated a GTP-binding protein coupled to calcium influx channel, followed by translocation and activation of cytosolic phospholipase A(2) in endothelial cells. Copyright 1996 S. Karger AG, Basel
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PMID:Characterization of Phospholipase A(2) Activation by Plasmin in Cultured Bovine Endothelial Cells. 1172 84

We have recently shown that resting human mast cells (MCs) produce tissue-type plasminogen activator (t-PA) without simultaneously expressing plasminogen activator inhibitor 1 (PAI-1). In the present study we have identified the anaphylatoxin rhC5a as a potent inducer of PAI-1 expression in human MCs and basophils. In primary human skin MCs and primary blood basophils, exposure to rhC5a was followed by an increase from undetectable to significant levels of PAI-1. In addition, rhC5a induced a concentration- and time-dependent increase in PAI-1 antigen in the MC line HMC-1 and the basophil cell line KU-812 and increased the expression of PAI-1 mRNA in HMC-1. In conditioned media of HMC-1 treated with rhC5a, active PAI-1 could be detected. A simultaneous loss of t-PA activity in conditioned media from the same cells indicated that rhC5a-induced PAI-1 was capable of inhibiting the enzymatic activity of coproduced t-PA. Correspondingly, the levels of t-PA-PAI-1 complexes increased in rhC5a-treated cells. When HMC-1 cells were incubated with pertussis toxin or anti-C5a receptor antibodies, the effect of rhC5a on PAI-1 production was completely abolished. Treatment of C5a with plasmin resulted in loss of its ability to induce PAI-1 production in MCs. Considering the suggested role for MCs and components of the complement system in the development of cardiovascular diseases, we hypothesize that MCs, by producing t-PA in a resting state and by expressing PAI-1 when activated by C5a, might participate in the modulation of the balance between proteases and protease inhibitors regulating tissue injury and repair in such disease processes.
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PMID:C5a stimulates production of plasminogen activator inhibitor-1 in human mast cells and basophils. 1209 43

Protease activity was measured through the hydrolysis of synthetic amino acid esters in body fluids and tissues of guinea pigs, rats, mice, and humans. Significant in vitro activation was observed in serum and lung slices of sensitized guinea pigs on addition of the specific antigen. Increased proteolytic activity was also seen in reverse anaphylaxis. More marked activation occurred when guinea pig serum was treated with peptone and guinea pig or rat serum was treated with agar. Protease activation was demonstrated in specimens of human skin under the influence of a poison ivy extract or croton oil added in vitro. Urinary protease activity of guinea pigs increased significantly during the first hours of anaphylactic shock and very markedly in peptone shock. Peptone shock, elicited in mice pretreated with H. pertussis, was accompanied by a considerable increase in protease activity in the peritoneal fluid as compared with non-pretreated mice which were insensitive to peptone. Proteolytic activity resulting from the activation procedures was due to a number of proteases. The dominant substrate affinity and inhibition patterns suggest that serum and urine proteases are similar to but not identical with plasmin. Anaphylactic activation exhibited patterns different from those resulting from the action of anaphylactoid agents. Tissue enzymes are either of cathepsin- or chymotrypsin-type or mixtures of both. Some of the activated enzymes, although remarkably effective in hydrolyzing amino acid esters, show no activity on protein substrates. This does not justify, however, their designation as "esterases." They probably belong to the class of specific proteases acting only on a single or a small number of functionally significant protein substrates. There is at present sufficient evidence to prove not only that protease activation does occur in anaphylaxis and anaphylactoid conditions but also that it is an important component of the chain of reactions leading to the allergic response.
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PMID:Further studies on the role of proteases in the allergic reaction. 1377 89

Plasminogen activators (tPA and uPA) are serine proteases that convert the circulating zymogen plasminogen to active plasmin and mediate fibrin degradation. These multifunctional proteins trigger various biological events such as extracellular matrix degradation, cell adhesion, migration, and proliferation, through not yet fully characterized mechanisms. We report that, in smooth muscle cells and ECV-304 carcinoma cells, tPA and ATF (the N-terminal catalytically inactive fragment of tPA) elicited DNA synthesis that requires activation of the sphingomyelin/ceramide/sphingosine-1-phosphate (Spm/Cer/S1P), signaling pathway and was blocked by D-erythro-2-(N-myristoylamino)-1-phenyl-propanol (D-MAPP) and N-N'-dimethyl sphingosine (DMS), two classical inhibitors of sphingosine-1-phosphate biosynthesis. Binding of tPA to its receptor uPAR triggered the coordinated activation of two key enzymes of the Spm/Cer/S1P pathway, the neutral sphingomyelinase and the sphingosine kinase-1 that was mediated by a common pertussis toxin (PTX)-sensitive mechanism. The tPA-induced sphingosine kinase-1 activation was mediated by Src, since it was inhibited by herbimycin A and in SrcK- cells (overexpressing a dominant negative kinase defective form of Src) and by ERK1/2 (early phase peaking at 15 min). Sphingosine kinase-1 activation was followed by a second phase of ERK1/2 phosphorylation (peaking at 120 min) and subsequent DNA synthesis, which were inhibited by D-MAPP and DMS, by anti-EGD-1 antibodies and in SrcK- cells (in which the mitogenic signaling was rescued by sphingosine-1-phosphate). Altogether, these data underline a pivotal role for the Spm/Cer/S1P pathway in the tPA-induced mitogenic signaling.
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PMID:The sphingomyelin/ceramide pathway is involved in ERK1/2 phosphorylation, cell proliferation, and uPAR overexpression induced by tissue-type plasminogen activator. 1523 24

We have previously observed that mice exposed to cigarette smoke and treated with exogenous alpha(1)-antitrypsin (A1AT) were protected against the development of emphysema and against smoke-induced increases in serum TNF-alpha. To investigate possible mechanisms behind this latter observation, we cultured alveolar macrophages lavaged from C57 mice. Smoke-conditioned medium caused alveolar macrophages to increase secretion of macrophage metalloelastase (MMP-12) and TNF-alpha, and this effect was suppressed in a dose-response fashion by addition of A1AT. Macrophages from animals exposed to smoke in vivo and then lavaged also failed to increase MMP-12 and TNF-alpha secretion when the animals were pretreated with A1AT. Because proteinase activated receptor-1 (PAR-1) is known to control MMP-12 release, macrophages were treated with the G protein-coupled receptor inhibitor, pertussis toxin; this suppressed both TNF-alpha and MMP-12 release, while a PAR-1 agonist (TRAP) increased TNF-alpha and MMP-12 release. Smoke-conditioned medium caused increased release of the prothrombin activator, tissue factor, from macrophages. Hirudin, a thrombin inhibitor, and aprotinin, an inhibitor of plasmin, reduced smoke-mediated TNF-alpha and MMP-12 release, and A1AT inhibited both plasmin and thrombin activity in a cell-free functional assay. These findings extend our previous suggestion that TNF-alpha production by alveolar macrophages is related to MMP-12 secretion. They also suggest that A1AT can inhibit thrombin and plasmin in blood constituents that leak into the lung after smoke exposure, thereby preventing PAR-1 activation and MMP-12/TNF-alpha release, and decreasing smoke-mediated inflammatory cell influx.
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PMID:Alpha1-antitrypsin suppresses TNF-alpha and MMP-12 production by cigarette smoke-stimulated macrophages. 1754 Oct 9


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