Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interaction between type 1 plasminogen activator inhibitor (PAI-1), a serine protease inhibitor, and the three serine proteases generated during contact activation of plasma was studied using functional and immunologic approaches. Incubation of Factor XIIa, Factor XIa, and plasma kallikrein with either purified PAI-1 or platelet-derived PAI-1 resulted in the formation of sodium dodecyl sulfate-stable complexes as revealed by immunoblotting techniques. Functional assays indicated that Factor XIa and, to a lesser extent, Factor XIIa and plasma kallikrein neutralized the ability of purified PAI-1 to bind to immobilized tissue-type plasminogen activator (t-PA). Immunoblotting demonstrated that these enzymes also neutralized the ability of PAI-1 to form complexes with fluid-phase t-PA. Clot lysis assays employing purified proteins and 125I-fibrinogen were used to investigate the profibrinolytic effect of these contact activation enzymes. At enzyme concentrations that did not result in direct activation of plasminogen, only Factor XIa was capable of stimulating the lysis of clots supplemented with both t-PA and PAI-1. As a consequence of their interactions with PAI-1, the amidolytic activity of Factor XIIa, Factor XIa, and plasma kallikrein was neutralized by this inhibitor in a time-dependent and concentration-dependent manner. Minimum values estimated for the apparent second-order rate constant of inhibition were 1.6 x 10(4), 2.1 x 10(5), and 6.0 x 10(4) M-1 s-1 for Factor XIIa, Factor XIa, and plasma kallikrein, respectively. These data define new reactions between coagulation and fibrinolysis proteins and suggest that a major mechanism for stimulation of the intrinsic fibrinolytic pathway may involve neutralization of PAI-1 by Factor XIa.
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PMID:Interaction of type 1 plasminogen activator inhibitor with the enzymes of the contact activation system. 278 18

An epithelial cell line derived from the liver of a normal Buffalo rat (BRL) was transformed by Rous sarcoma virus (RSV). The RSV-transformed cells were separated into five clones (RSV-BRL1 through 5), which were morphologically different. RSV-BRL cells exhibited the following characteristics distinct from those of BRL cells: tumorigenicity, irregular cell arrangement, loose intercellular junction, growth in soft agar (anchorage-independent growth) except for RSV-BRL3 and 5, and loss of cell surface fibronectin. When BRL cells were cultured in the standard medium supplemented with the serum-free conditioned medium of RSV-BRL cells, the amount of the cell surface fibronectin decreased significantly. It was found that RSV-BRL cells secreted a proteinase capable of hydrolyzing the fibronectin, whereas BRL cells secreted hardly any of this proteinase. The fibronectin-hydrolyzing proteinase (FNase) could also hydrolyze plasma fibronectin added as an exogenous substrate. The hydrolysis of plasma fibronectin was inhibited by ethylenediamine tetraacetate, but stimulated by rho-chloromercuribenzoate and calcium ion. This indicates that FNase is a metallo-enzyme, but not a serine or thiol enzyme. In addition to the proteinase, RSV-BRL cells secreted plasminogen activator and a proteinase inhibitor which inhibited the activity of plasmin but not FNase.
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PMID:Transformation of rat liver cell line by Rous sarcoma virus causes loss of cell surface fibronectin, accompanied with secretion of metallo-proteinase that preferentially digests the fibronectin. 282 45

The crucial role of non-plasminogen dependent serine proteinases is tissue invasive and cytolytic functions of Walker 256 cancer cells has been documented using a rat urinary bladder invasion and a 125I-labelled fibroblast cytolysis assay. The invasive capacity of these cancer cells was abrogated by non toxic concentrations of the serine proteinase inhibitors, diisopropylfluorophosphate and phenylmethylsulfonylfluoride, but not by metallo or cysteine proteinase inhibitors. Although tumour cell collagenase activity and plasminogen activator were demonstrated, these proteolytic enzymes were not essential in these in vitro assays. These results suggest that different categories of proteinases play specific roles in the complicated process of cancer invasion.
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PMID:Role for different cell proteinases in cancer invasion and cytolysis. 299 66

The tissue-destructive proteinases of B16-BL6 melanoma cells from C57BL/6 mice and subcellular fractions were examined. Cancer cell organelles were isolated following nitrogen cavitation with the use of sucrose density gradient centrifugation. Serine, cysteine, and metalloproteinases were assayed with the use of radiolabeled proteins and synthetic substrates. Tumor-induced red blood cell lysis was quantitated by measurement of the release of isotope from 59Fe-labeled red blood cells (RBC) cocultivated with melanoma cells; the RBC were from Wistar rats. Enzyme inhibitors with specificity toward different classes of proteinases were used in the above assays to categorize the enzymes responsible for substrate degradation. Results indicated that intact melanoma cells, cell organelles, and cytosol contain proteinases that can degrade collagen and gelatin and lyse normal RBC. Melanoma plasma membranes are highly enriched in collagenase, gelatinase, cysteine proteinase, plasminogen activator, and cytolytic activity. The inhibition of tumor collagenolytic, gelatinolytic, and cytolytic activities by EDTA and 1,10-phenanthroline but not by diisopropyl fluorophosphate and N alpha-p-tosyl-L-lysine chloromethyl ketone indicates that metalloproteinases are the active enzymes in these assays. Minocycline, a synthetic tetracycline with demonstrable inhibitory activity with other mammalian collagenases, also inhibited melanoma collagenolytic and cytolytic activities.
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PMID:Diversity of melanoma plasma membrane proteinases: inhibition of collagenolytic and cytolytic activities by minocycline. 299 28

In this study we have examined the tissue-destructive proteinases of human pancreatic ductal cancer cell lines derived initially from xenogenic transplants. Cancer cell organelles were isolated following nitrogen cavitation using sucrose density gradient centrifugation. Serine, cysteine, and metalloproteinases were assayed using radiolabeled protein and synthetic substrates. Tumor-induced RBC lysis was quantitated by measuring the release of isotope from 59Fe-labeled RBCs co-cultivated with tumor cells or subcellular fractions. Enzyme inhibitors with specificity toward different classes of proteinases were used in the above assays to categorize the enzymes responsible for substrate degradation. Results indicated that intact pancreatic cancer cells (RWP-1 and RWP-2 cell lines), cell homogenate, and cytosol contain proteinases which were able to degrade [3H]collagen (type I) and [3H]gelatin and lyse normal RBCs. Cancer cell membrane fractions were enriched in collagenolytic, gelatinolytic, and cytolytic activities which could be abrogated by EDTA but not by inhibitors of serine or cysteine proteinases, which indicates that metalloproteinases are the active enzymes in these assays. Although plasminogen activator and cysteine proteinases were also enriched in the tumor cell membranes, these activities were not required for collagen degradation or cytolysis. We conclude that human cancer cell membrane proteinases are advantageously situated to facilitate damage to surrounding normal tissues.
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PMID:Diversity of human pancreatic cancer cell proteinases: role of cell membrane metalloproteinases in collagenolysis and cytolysis. 299 95

To understand the role of proteinases in tumor invasion, the effects of inhibitors of metallo-, serine-, and cysteine-proteinases on this process were studied using 125I-iododeoxyuridine-labeled B16/BL6 cells grown on human amnion basement membrane. Cellular invasion was quantitated by measuring the radioactivity associated with the amniotic membrane after the B16/BL6 cells on the basement membrane were removed by lysis followed by scraping. The results obtained with proteinase inhibitors showed that inhibitors of collagenase and plasmin prevented invasion of the amnion. Tissue invasion was also blocked by antiurokinase antibodies. On the contrary, cysteine-proteinase inhibitors and anti-tissue plasminogen activator antiserum were ineffective. Mersalyl, a compound known to activate collagenase, stimulated invasion under conditions where plasmin formation or activity were inhibited. Evidence for the role of a plasminogen activator-plasmin-collagenase activation cascade in B16 invasion is provided.
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PMID:Tumor invasion through the human amniotic membrane: requirement for a proteinase cascade. 302 33

Purified approximately 54 kDa plasminogen activator inhibitor from human fibrosarcoma cells was converted to an inactive form with slightly higher electrophoretic mobility by incubation with catalytic amounts of urokinase-type or tissue-type plasminogen activator. Serine proteinase inhibitors and a monoclonal antibody against urokinase-type plasminogen activator inhibited the conversion, indicating that it was caused by plasminogen activator-catalyzed proteolysis. These findings represent the first demonstration of a well-defined protein apart from plasminogen, constituting a substrate for plasminogen activators.
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PMID:Plasminogen activators catalyse conversion of inhibitor from fibrosarcoma cells to an inactive form with a lower apparent molecular mass. 308 67

Two murine monoclonal antibodies (MA-2G6 and MA-1C8), secreted by hybridomas obtained by fusion of myeloma cells with spleen cells from mice immunized with human tissue-type plasminogen activator (t-PA), inhibited the activity of t-PA on fibrin plates. MA-2G6 inhibited the amidolytic activity of t-PA and did not react with t-PA in which the active-site serine was blocked with diisopropylfluorophosphate nor with t-PA in which the active-site histidine was alkylated by reaction with D-Ile-Pro-Arg-CH2Cl. This indicated that MA-2G6 is directed against an epitope covering the active site of t-PA. MA-1C8 did not inhibit the amidolytic activity of t-PA, but abolished both the binding of t-PA to fibrin and the stimulatory effect of fibrin on the activation of plasminogen by t-PA. Thus MA-1C8 is directed against an epitope which covers the fibrin-binding site of t-PA. The A and B chains of partially reduced two-chain t-PA were separated by immunoadsorption on immobilized MA-1C8 and MA-2G6. The purified B chain reacted with MA-2G6 but not with MA-1C8 and activated plasminogen following Michaelis-Menten kinetics with kinetic constants similar to those of intact t-PA (Km = 100 microM and kcat = 0.02 s-1). However, fibrin or CNBr-digested fibrinogen did not stimulate the activation of plasminogen by the B chain. The purified A chain reacted with MA-1C8 but not with MA-2G6. It bound to fibrin with an affinity similar to that of intact t-PA but did not activate plasminogen. It is concluded that the active center of t-PA is located in the B chain and the fibrin-binding site in the A-chain. Both functional domains are required for the regulation by fibrin of the t-PA-mediated activation of plasminogen.
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PMID:Characterization of functional domains in human tissue-type plasminogen activator with the use of monoclonal antibodies. 308 76

The addition of thrombin (9 nM) to primary cultures of human endothelial cells induces a 6- to 7-fold increase in the rate of release of tissue plasminogen activator (tPA). Several other serine proteases which specifically interact with endothelial cells were also analyzed for their effect on tPA release. Gamma-thrombin, an autocatalytic product of alpha-thrombin, promoted tPA release but was less effective than alpha-thrombin. A maximum increase of 5.5-fold was observed, although a concentration of gamma-thrombin 20 times greater than alpha-thrombin was required. The response to Factor Xa was similar to alpha-thrombin, although the stimulation was significantly reduced by the addition of hirudin or DAPA suggesting that prothrombin activation was occurring. The simultaneous addition of prothrombin with Factor Xa resulted in enhanced tPA release equal to that observed with an equimolar concentration of active alpha-thrombin. Thus, under these conditions, Factor Xa-cell surface mediated activation of prothrombin can lead to a secondary effect resulting from cell-thrombin interaction. Activated protein C, which has been implicated as a profibrinolytic agent, was also tested. No change in tPA release occurred after the addition of up to 325 nM activated protein C in the presence or absence of proteins. Factor IXa and plasmin were also ineffective. The effect of thrombin on the endothelial cell derived plasminogen activator specific inhibitor was also studied. Thrombin produced a small but variable release of the inhibitor with an increase of less than twice that of non-thrombin treated controls.
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PMID:Specificity of the thrombin-induced release of tissue plasminogen activator from cultured human endothelial cells. 310 Dec 18

Placental extracts contain inhibitors of human urinary urokinase. These extracts form a heterogeneous population of complexes with 125I-urokinase that are recognizable by changes in gel filtration profile and mobility during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Treatment with reducing agents eliminated the size heterogeneity without loss of activity, thereby allowing the placental inhibitor to be purified. Active inhibitor has been isolated in apparently homogeneous form after an eight-step procedure that included salt extraction, ammonium sulfate fractionation, column chromatography on CM-cellulose, DEAE-Sepharose, and hydroxylapatite, chromatofocusing, preparative gel electrophoresis, and hydrophobic chromatography. The purified inhibitor has Mr = 47,000. The inhibitor is relatively specific for plasminogen activators since it does not inhibit the action of plasmin, factor XIIa, plasma kallikrein, or thrombin. The inhibitor forms complexes with 1:1 stoichiometry that block the active sites of urokinase (but not prourokinase) and both one- and two-chain forms of tissue plasminogen activator. The stability of these complexes in sodium dodecyl sulfate-polyacrylamide gel electrophoresis suggest that they are based on covalently bonded structures. Although both types of plasminogen activator are inhibited, the rate of interaction is significantly faster with urokinase, tissue plasminogen activator being inhibited less efficiently. The complexes formed can be dissociated by mild alkali or hydroxylamine, thereby regenerating both enzymes and inhibitor at their original molecular weights. The results suggest that the complexes are stabilized by ester-like bonds; these might involve the hydroxyl of serine at the active site of the proteases and a carboxyl group in the inhibitor.
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PMID:An inhibitor of plasminogen activation from human placenta. Purification and characterization. 310 92


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