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: EC:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cancer cells show a greater capability than normal cells do to break down proteins in the surrounding tissue. This tissue destruction involving proteolytic enzymes is probably essential for the invasion and metastatic spread of malignant cells. The process takes place through an interplay of proteolytic enzyme systems where plasmin-mediated proteolysis plays an important role. Plasminogen activator activity and receptors for plasminogen activators have been discovered in tumors, mainly in areas with invasive growth and tissue degradation. Patients with malignant diseases often demonstrate abnormalities in their blood coagulation, including hyperaggregability of platelets. Experimental research has shown that therapy with antiplatelet drugs, and prophylaxis with protease inhibitors, can limit spread of tumors.
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PMID:[The role of proteases in the growth, invasion and spread of cancer cells]. 227 46

Abundant deposition of bronchoalveolar fibrin and fibronectin occurs during the exudative phase of the adult respiratory distress syndrome (ARDS), promoting hyaline-membrane formation and subsequent alveolar fibrosis. To explore the mechanisms that account for the persistence of bronchoalveolar fibrin and fibronectin, we compared the activity of urokinase, which is necessary for plasminogen activation and fibrin degradation, in cell-free bronchoalveolar-lavage fluid from 8 patients with ARDS, 9 patients with acute pulmonary diseases other than ARDS, and 10 normal subjects. The mean level of urokinase activity in the lavage fluid from the patients with ARDS was 0.003 IU per milliliter of fluid (range, 0 to 0.008), which was significantly lower (P = 0.001) than the level in the fluid from either the patients with pulmonary diseases other than ARDS (0.118 IU per milliliter [range, 0.032 to 0.295]) or the normal subjects (0.129 IU per milliliter [range, 0.045 to 0.198]). The lavage fluid from all the patients with ARDS also had antiplasmin activity, which would promote the persistence of fibrin. A true decrease in urokinase activity was confirmed by the failure of the lavage fluid from the patients with ARDS to convert [125I]plasminogen to plasmin. Despite the low urokinase activity, immunochemical assays revealed normal levels of urokinase antigen in the fluid from the patients with ARDS, suggesting the presence of urokinase inhibitors. Inhibitors were demonstrated directly by a fibrin gel-underlay assay that detects complexes of urokinase with inhibitors. Plasminogen-activator inhibitor type 1 was the principal inhibitor identified. We conclude that increased antifibrinolytic activity due to both urokinase inhibitors and antiplasmins in the bronchoalveolar compartment of patients with ARDS contributes to the formation and persistence of hyaline membranes, a key component of alveolar histopathology in ARDS.
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PMID:Depressed bronchoalveolar urokinase activity in patients with adult respiratory distress syndrome. 231 27

The effect of plasminogen on the ability of highly metastatic ESb mouse lymphoma cells to degrade heparan sulfate (HS) in the subendothelial extracellular matrix (ECM) was studied. A metabolically sulfate-labeled ECM was incubated with the lymphoma cells, and labeled degradation products were analyzed by gel filtration on Sepharose 6B. Heparanase-mediated release of low-Mr (0.5 less than Kav less than 0.85) HS cleavage products was stimulated fourfold in the presence of plasminogen. Incubation of plasminogen alone with the ECM resulted in its conversion into plasmin, which released high-Mr (Kav less than 0.33) labeled proteoglycans from the ECM. Heating the ECM (80 degrees C, 1 hr) abolished its ability to convert plasminogen into plasmin, yet plasminogen stimulated, through its activation by the ESb plasminogen activator, heparanase-mediated release of low-Mr HS fragments. Heparin inhibited both the basal and plasminogen-stimulated degradation of HS side chains but not the total amount of labeled material released from the ECM. In contrast, aprotinin inhibited the plasminogen-stimulated release of high- as well as low-Mr material. In the absence of plasminogen, degradation of heated ECM by ESb cells was completely inhibited by aprotinin, but there was only a partial inhibition of the degradation of native ECM and no effect on the degradation of soluble HS proteoglycan. These results demonstrate that proteolytic activity and heparanase participate synergistically in the sequential degradation of ECM HS and that the ESb proteolytic activity is crucial for this degradation when the ECM-associated protease is inactivated. Plasminogen may serve as a source for the proteolytic activity that produces a more accessible substrate to the heparanase.
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PMID:Involvement of both heparanase and plasminogen activator in lymphoma cell-mediated degradation of heparan sulfate in the subendothelial extracellular matrix. 242 87

Plasminogen preparation from donor blood and fibrinolytically active blood plasma from humans after sudden death were obtained using affinity chromatography on Lysin-sepharose 4B. The plasminogen preparation from donor blood was shown to be highly purified native plasminogen (Glu-plasminogen). The preparation containing activated plasminogen (Lys-plasminogen), plasmin, plasminogen activator, alpha 2-macroglobulin, alpha 1-antitrypsin, fibrin/fibrinogen was obtained from the blood plasma of humans after sudden death. The appearance of proteins lacking biological specificity to lysin-sepharose in the plasminogen preparation shows the ability of activated plasminogen and plasmin to form complexes with these proteins and demonstrates the retention of the functional activity in lysin-binding regions on their molecules. Monospecific sera to the isolated preparations were obtained, demonstrating the presence of the same immunochemical determinants in native and activated plasminogen.
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PMID:[Effect of endogenous fibrinolysis activation on human plasminogen]. 243 67

Activity of peritoneal plasminogen activator and its regulation by dextran and other macromolecules that clinically suppress postoperative adhesions was studied. Plasminogen activator activity was assayed by a two-stage globinolytic assay that monitors formation of plasmin, as well as by cleavage of a chromogenic peptide substrate (S-2444) in the presence of aprotinin (Trasylol). Plasminogen activator activity was located on the outer surface of human peritoneum. Incubation of peritoneal tissue with buffer in vitro (conditioning) prompted release of plasminogen activator into the conditioning medium. The released plasminogen activator formed a single band on sodium dodecyl sulfate-gel electrophoresis at an apparent molecular weight of 174,000 and was markedly suppressed by antiserum raised against human melanoma tissue-type plasminogen activator. Nonspecific proteolytic activity did not accumulate in the medium during conditioning. The presence of dextran 80 during conditioning of peritoneum reversibly suppressed tissue-bound plasminogen activator activity and reduced plasminogen activator activity in the spent medium. A similar inhibition of peritoneal plasminogen activator was induced by dextran 500, methyl cellulose, and polyvinylpyrrolidone. Dextran, when added to the medium after conditioning, had no direct inhibitory effect on plasminogen activator activity. Dextran did not induce peritoneal production of inhibitor(s) of trypsin, chymotrypsin, or urokinase. On the basis of these findings, two possible mechanisms for the effect of viscous polymers in the reduction of adhesion formation are proposed. These mechanisms consider the importance of peritoneal tissue-type plasminogen activator for removal of fibrin clots and suggest that polymer coating either prevents the shedding of plasminogen activator into the abdominal cavity or reduces the access of fibrin clots to the serosal surfaces.
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PMID:Effect of viscous macromolecules on peritoneal plasminogen activator activity: a potential mechanism for their ability to reduce postoperative adhesion formation. 245 68

Plasminogen activator inhibitor-2 (PAI-2) can regulate the formation of plasmin by inhibiting urokinase and tissue plasminogen activator. PAI-2 is induced in monocytes and endothelium by inflammatory mediators, and it is made in the placenta during pregnancy. PAI-2 is a member of the serine protease inhibitor gene family, and it is particularly similar to chicken ovalbumin. Like ovalbumin, PAI-2 is secreted without cleavage of a signal peptide. To determine the structure of the PAI-2 gene, two bacteriophage lambda human genomic DNA libraries were screened with PAI-2 cDNA probes. Characterization of three positive clones shows that the human PAI-2 gene spans 16.5 kilobases and has eight exons. The 5'-untranslated sequence of the PAI-2 mRNA is 77 base pairs in length as suggested by primer extension and S1 nuclease mapping. The eukaryotic consensus sequence TATAAAA is found 22 base pairs 5' of the proposed cap site. The PAI-2 gene is on chromosome 18q21-23 as determined by hybridization to flow-sorted chromosomes and by in situ hybridization. There appear to be two common PAI-2 alleles that differ by six nucleotides in exons 1, 4, and 8. The structure of the PAI-2 gene is quite different from that of PAI-1 although these two inhibitors have common target protease specificity. In contrast, the structure of the PAI-2 gene is very similar to that of the chicken ovalbumin gene. When protein sequences are aligned to obtain maximal identity, six of the seven intron positions in the PAI-2 gene are identical to those in the chicken ovalbumin gene. We conclude that PAI-2 is the closest mammalian homologue of avian ovalbumin.
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PMID:Structure of the gene for human plasminogen activator inhibitor-2. The nearest mammalian homologue of chicken ovalbumin. 249 65

To evaluate the effect of endotoxin on the fibrinolytic response, we administered Escherichia coli endotoxin (4 ng per kilogram of body weight) intravenously to 19 healthy volunteers and measured fibrinolytic proteins, protease inhibitors, neutrophil elastase, and von Willebrand factor in serial blood samples obtained over 24 hours. One hour after endotoxin administration, the level of tissue plasminogen activator (t-PA) antigen rose from 10 to 23 ng per milliliter, peaking at 52 ng per milliliter at three hours. The level of alpha 2-plasmin inhibitor-plasmin complexes increased sevenfold, peaking at three hours. Plasminogen-activator inhibitor-1 activity rose more slowly, from 7 U per milliliter to a maximum of 49 U per milliliter at five hours. The concentrations of neutrophil elastase and von Willebrand antigen were unchanged at one hour, increased approximately threefold by 3 hours, and remained elevated at 24 hours. None of these measures changed in a control group (n = 5) given intravenous saline instead of endotoxin. We studied t-PA functional activity in four subjects. The level of activity rose rapidly, from 1.2 ng per milliliter at base line to 8.3 ng per milliliter at one hour and 13.9 ng per milliliter at two hours; it was undetectable at three hours. This increase in plasminogen activator activity was abolished in vitro by incubation of t-PA with an antiserum specific for human t-PA, suggesting that t-PA may be directly responsible for plasmin generation in the response to endotoxin. We conclude from this study of healthy subjects that endotoxin activates the fibrinolytic system, beginning with release of t-PA in the blood within one hour. The early activation of plasmin by endotoxin may prevent thrombosis, and the increase in fibrinolysis is then offset by the release of plasminogen activator inhibitor.
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PMID:Promotion and subsequent inhibition of plasminogen activation after administration of intravenous endotoxin to normal subjects. 278 17

Plasminogen activators (PAs) convert plasminogen to plasmin by the cleavage of the Arg-Val bond. There are two distinct types of PA, tissue type (t-PA) released from the endothelial cells of the blood vessels and urinary type (u-PA) released from urinary tubules. u-PA was found to be released from activated macrophages and virally transformed cells. t-PA was also found to be released from breast cancer cells induced by carcinogens or melanoma cells. In structure, t-PA has a finger domain homologous to fibrin-binding domain of fibronectin and a growth factor domain homologous to the epidermal growth factor. u-PA has no finger domain but has a growth factor domain. It is proposed that PA may be important in tumor growth due to the stimulation of tumor cells through binding of growth factor domain to its receptor of tumor cells. Another hypothesis is that PA may activate procollagenase to collagenase, which digests collagen to facilitate tumor growth. We have measured the concentrations of t-PA and u-PA in plasma, urine and tumor tissues of patients with cancer of the digestive tract and patients with uterine or ovarian tumors. The results indicate that the concentrations of u-PA increased in urine, plasma and cancer tissues of patients with cancer of the digestive tracts whereas no increase was observed in t-PA levels. On the other hand, the concentration of t-PA increased mostly in plasma of patients with uterine and ovarian cancers, but t-PA levels in tissues did not increase in patients with uterine and ovarian cancer.
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PMID:Plasminogen activators: possible roles in cell proliferation. 250 84

Plasminogen activator (PA) and PA inhibitor were partially purified from 2-d-old rat epidermis and characterized in order to elucidate the enzyme-inhibitor interaction in epidermis. PA extracted with buffer containing KSCN was first purified by Blue-Sepharose affinity chromatography. Separation of two PAs, with relative molecular mass (Mr) of 66000 and 44000, was accomplished by Con A-Sepharose column chromatography. The Mr 66000 enzyme had the properties of tissue-type PA (t-PA), while the Mr 44000 enzyme showed those of urokinase-type PA (u-PA) as determined by immunological and fibrin-binding studies. PA inhibitor was extracted in 1,4-piperazinediethanesulphonic acid buffer and purified by (NH4)2SO4 precipitation, gel filtration followed by a Mono Q column in an FPLC system. This inhibitor showed Mr 60000 and inhibited human u-PA activity in a dose- and time-dependent manner, but did not inhibit the activity of t-PA from human and murine melanoma cells or plasmin. It inhibited epidermal PA, Mr 44000, more effectively than it did the Mr 66000 epidermal PA. It was stable at 60 degrees C for 60 min or between pH 5 and 11. This study indicates that both u-PA and t-PA function in normal rat epidermis. On the other hand, an inhibitor which preferentially acts against u-PA exists, but inhibitor to t-PA does not appear to operate under normal epidermal functions.
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PMID:Partial purification and characterization of epidermal plasminogen activator and their inhibitor. 250 88

Human chromosomal DNA encoding single-chain urokinase-type Plasminogen Activator (scu-PA, or pro-urokinase) was inserted in an expression plasmid and transfected in human A431, mouse LB6 and CHO cells. LB6 cells were also transfected with a Bovine Papilloma Virus derivative containing the scu-PA gene. Human scu-PA was purified from cell supernatants of recombinant clones and characterized for structure and function. All recombinant scu-PAs are undistinguishable from human urine-derived scu-PA for peptide backbone, but possess a higher sugar content, as revealed by SDS-PAGE analysis after digestion with glycopeptidase F. This difference is partly due to an increased sialic acid content, as shown by analysis of neuraminidase-treated scu-PAs. No difference was found, however, among recombinant and natural scu-PAs in the kinetics of conversion into two-chain active forms (tcu-PAs) by human plasmin, and in the KM and kcat values of tcu-PA activity on the chromogenic substrate S-2444 and on human plasminogen. Also, recombinant and non-recombinant tcu-PAs displayed similar dose-response curves for binding to the endothelial inhibitor PAI-1. In conclusion, the glycosylation pattern of u-PA does not affect its interaction with the plasma proteins directly involved in its fibrinolytic function.
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PMID:The differential glycosylation of human pro-urokinase from various recombinant mammalian cell lines does not affect activity and binding to PAI-1. 251 81


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