Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0272170 (SDS)
 50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increasing evidence suggests the involvement of leukocytes in the fibrinolytic system. Monocytes secrete pro-urokinase (Grau, Thromb Res 1989; 53: 145) and it has been shown that these cells have specific receptors for urokinase and plasminogen (Miles, Thromb Haemostas 1987; 58: 936). The aim of this study was to analyse the presence of plasminogen activator inhibitor(s) in platelet-free suspensions of human peripheral blood monocytes and polymorphonuclear leukocytes (PMN). SDS-PAGE and reverse fibrin autography showed an inhibitory band of 50 kDa in the monocyte extracts (Triton X-100) but not in the PMN extracts. Urokinase (u-PA) was mixed with increasing amounts of monocyte extract for 10 min and the mixtures were added to 125I-fibrin coated wells containing plasminogen. A dose-dependent decrease in the u-PA fibrinolytic activity was observed. The amount of inhibition increased when the monocyte releasates were preincubated with u-PA (40% inhibition after 5 min preincubation and 80% after 15 min), indicating a direct interaction between this activator and an inhibitor(s). After SDS-PAGE of monocyte extracts, immunoblotting and peroxidase staining identified both PAI1 and PAI2, with an apparent molecular weight of 47-50 kDa. Monocyte-associated PAI1 formed complexes with single chain t-PA with a molecular mass 50 kDa higher than the molecular mass of the free PAI1. However, a significant amount of PAI1 remained unbound to t-PA. This inactive PAI1 could have come from a rapid inactivation of the primary active PAI1. These PAI1 and PAI2 detected in human monocytes may be transcendent in the regulation of the fibrinolytic system.
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PMID:Detection of both type 1 and type 2 plasminogen activator inhibitors in human monocytes. 233 62

A hybrid human cDNA was constructed by splicing of a cDNA fragment of tissue-type plasminogen activator (t-PA), encoding 5'-untranslated, the pre-pro region and amino acids Ser1-Thr263, with a cDNA fragment of urokinase-type plasminogen activator (u-PA), encoding amino acids Leu144-Leu411. The cDNA fragments were obtained from full length t-PA cDNA, cloned from Bowes melanoma poly(A)+ mRNA, and from full length u-PA cDNA, cloned from CALU-3 lung adenocarcinoma poly(A)+ mRNA. The hybrid (t-PA/u-PA) cDNA was expressed in Chinese hamster ovary cells and the translation product purified from the conditioned cell culture media. On SDS-gel electrophoresis under reducing conditions, the protein migrated as a single band with approximate Mr 70,000. On immunoblotting, it reacted both with rabbit antisera raised against human t-PA and against human u-PA. The urokinase-like amidolytic activity of the protein was only 320 IU/mg but increased to 43,000 IU/mg after treatment with plasmin, which resulted in conversion of the single-chain molecule (t-PA/scu-PA) to a two-chain molecule (t-PA/tcu-PA). The specific activity of the protein on fibrin plates was 57,000 IU/mg by comparison with the International Reference Preparation for Urokinase. Both the single-chain hybrid (t-PA/scu-PA) and the two-chain plasmin derivative (t-PA/tcu-PA) bound specifically to fibrin, albeit more weakly than t-PA. The t-PA/tcu-PA hybrid had a higher selectivity for fibrin than tcu-PA, measured in a system composed of a whole human 125I-fibrin-labeled plasma clot immersed in human plasma. Both hybrid proteins activated plasminogen directly with Km = 1.5 microM and k2 = 0.0058 s-1 for t-PA/scu-PA and with Km = 80 microM and k2 = 5.6 s-1 for t-PA/tcu-PA. CNBr-digested fibrinogen stimulated the activation of plasminogen with t-PA/tcu-PA (Km = 0.20 microM and k2 = 1.2 s-1). It is concluded that these t-PA/u-PA hybrid proteins combine, at least to some extent, the fibrin-affinity of t-PA with the enzymatic properties of u-PA (either scu-PA or tcu-PA), which in some assays result in improved fibrin-mediated plasminogen activation.
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PMID:Characterization of a fusion protein consisting of amino acids 1 to 263 of tissue-type plasminogen activator and amino acids 144 to 411 of urokinase-type plasminogen activator. 295 60

The plasminogen activator (PA) produced by freshly purified human monocytes-macrophages and histiocytic, lymphoma-derived U 937 cells was analyzed by zymography after sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and found to migrate with an apparent Mr of 55,000, identical to that of urokinase (Uk). By immunoprecipitation with antibodies specific for the two different types of PA, the enzyme was shown to be immunologically related to urokinase, and not to tissue PA. Urokinase was secreted in the form of the inactive Mr 55,000 zymogen prourokinase , and could be converted to the active Mr 55,000 enzyme by limited proteolysis with plasmin. Conditioned media from cultures of U 937 cells and monocytes-macrophages inhibited the fibrinolytic activity of exogenously added urokinase. Using [125I]-labeled urokinase we observed the formation of an enzyme-ligand complex, which was not dissociated by boiling in SDS and migrated with an apparent Mr 40,000 daltons higher than the free enzyme; since complexed urokinase was functionally inactivated as a PA, the ligand is an inhibitor of urokinase. This inhibitor is different from fibroblast-produced protease- nexin , in that it did not interact with thrombin. These results suggest that plasminogen activation by mononuclear phagocytes can be modulated through the secretion of both (pro)enzyme and a specific inhibitor.
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PMID:Concomitant secretion of prourokinase and of a plasminogen activator-specific inhibitor by cultured human monocytes-macrophages. 637 11

Enzymes functioning as plasminogen activators in commercial urokinase preparations and individual human urine concentrates were subjected to affinity chromatography on columns of lentil lectin-sepharose, ricin-sepharose, wheat germ agglutinin-sepharose, lotus lectin-sepharose and concanavalin A-sepharose. Chromatography of the enzymes from both sources yielded similar results for all lectins except lentil lectin. Urokinase from several commercial sources was approximately 50% adherent to lentil lectin-sepharose while only 5-10% of the urinary plasminogen activators from individuals was adherent to this lectin. SDS-PAGE followed by zymography indicated that the observed differences between commercial and individual samples could be due to the presence in urine concentrates of subpopulations of plasminogen activators which were absent from the commercial samples.
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PMID:Identification of subpopulations of human urinary plasminogen activators. 653 58

Urokinase (u-PA) is synthesized and secreted as a single-chain polypeptide (single-chain u-PA, scu-PA), which has such little enzymatic activity in solution that it has been considered essentially enzymatically inert. We found that plasminogen activator inhibitor type 1 (PAI-1), the major PAI in plasma, demonstrated concentration-dependent inhibition of this solution-phase scu-PA enzymatic activity. 125I-scu-PA formed complexes with PAI-1 in a concentration- and time-dependent manner, as detected by SDS-polyacrylamide gel electrophoresis under reducing conditions. Among a given population of scu-PA molecules, all measurable enzymatic activity was inhibited by a 10-fold molar excess of PAI-1. However, at this stoichiometry, only a minority of 125I-scu-PA molecules formed SDS-stable complexes with PAI-1 (i.e. complexes that formed a covalent bond upon denaturation), even though the uncomplexed PAI-1 molecules remained competent to inhibit u-PA enzymatic activity. Neither the extent nor the time course of complex formation was altered by using PAI-1 that had been pre-incubated with native human vitronectin, compared with native PAI-1 alone. 125I-scu-PA.PAI-1 complexes that would form a covalent bond if denatured were reversible and existed in equilibrium with either non-complexed or loosely complexed reactants. These data suggest that scu-PA has more enzyme-like properties than previously appreciated and raises the possibility that it resembles single-chain tissue type-plasminogen activator in lacking a complete zymogen conformation.
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PMID:Interaction of single-chain urokinase and plasminogen activator inhibitor type 1. 754 49

Urokinase (u-PA)-mediated cell surface plasminogen activation is required for cellular tissue invasion. This invasion occurs in environments rich in plasminogen activator inhibitors (PAIs), which efficiently inhibit receptor-bound two-chain u-PA. Single-chain u-PA (scu-PA) was recently found to efficiently initiate cell surface plasminogen activation, and we herein describe the interaction of scu-PA with PAI type 2 (PAI-2). In the fluid phase (no cells) the plasminogen-activating activities of both scu-PA and Glu158-scu-PA (a plasmin non-activatable variant of scu-PA) were inhibited in a concentration-dependent manner by recombinant human PAI-2. This inhibition occurred with both forms of scu-PA remaining as single-chain molecules throughout the interactions. Although scu-PA did not form SDS-stable complexes with PAI-2, preincubation of scu-PA with 125I-PAI-2 demonstrated a dose-dependent inhibition of SDS-stable complex formation between 125I-PAI-2 and subsequently added two-chain u-PA. This indicates that although a "stable intermediate" type complex between scu-PA and PAI-2 was not detected, there was a physical association between the two molecules that shared at least some determinants with the two-chain u-PA-PAI-2 complex. In contrast, Glu158-scu-PA bound to u-PA receptors on monocytes was only minimally inhibited by a large molar excess of PAI-2. These data suggest that the initiation of cell surface plasminogen activation may involve the partitioning of scu-PA between PAI-2 (a "negative modulator") and the u-PA receptor (a "positive modulator") and that the enzymatic activity of receptor-bound scu-PA may allow initiation of cell surface proteolysis even in PAI-2-rich environments. A model along these lines is presented.
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PMID:Differential inhibition of soluble and cell surface receptor-bound single-chain urokinase by plasminogen activator inhibitor type 2. A potential regulatory mechanism. 790 91

Familial bleeding problems are frequently difficult to diagnose because currently used clinical tests cannot identify intracellular molecular defects of platelets. Using platelet proteomics, a comprehensive analytical tool, we diagnosed a family with severe bleeding problems of unknown origin with Quebec Platelet Disorder. Prior to proteomic analysis, we determined platelet counts, presence of glycoprotein (GP) Ib and GPIIb/IIIa, platelet aggregation, dense granule content and release, plasma levels of fibrinogen, Factor XIII and fibrin degradation products in four family members. Abnormalities were detected in platelet aggregation studies, which revealed variably reduced responses to ADP, collagen and epinephrine with concomitantly decreased ATP/serotonin secretion. In addition, D-dimer levels were significantly elevated 72 hours after in vitro thrombin stimulation of platelet-rich plasma. Together with the autosomal dominant inheritance and the delayed onset of bleeding in two of the four patients these results did not support any known platelet disorder. Therefore, the proteome of platelet lysates separated by one-dimensional SDS-PAGE was analysed by liquid chromatography-tandem mass spectrometry (LC-MS/MS). Platelet proteomics showed reduced amounts of alpha-granule proteins multimerin, fibrinogen and thrombospondin-1 in patient compared to control samples suggestive of Quebec Platelet Disorder. The diagnosis of Quebec Platelet Disorder was confirmed by urokinase-specific Western blots. Urokinase causes the degradation of alpha-granule proteins in this disorder. Diagnosis of rare bleeding disorders has important implications for prophylactic and acute treatment of bleeding patients. This is the first report using proteomics to identify a familial platelet defect.
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PMID:The value of proteomics for the diagnosis of a platelet-related bleeding disorder. 1879 40

Urokinase was produced in a hollow fiber reactor using HT-1080 human fibrosarcoma cells. External modulation comprised replenishing of the medium in the extracapillary space, reducing the serum concentration in the extracapillary space from 10% to 2% and increasing flow rate of the circulating medium in the intracapillary space from 20 to 80 mL/min, each according to a specific protocol. More than sixfold increase was observed in the cumulative urokinase production for two and three medium replenishing modulations of the extracapillary space. After 15 days of continuous operation, the highest cumulative urokinase obtained was 1.63 x 10(6) PU/mL. SDS-PAGE and zymogram study established that the urokinase obtained was in the high molecular weight range of 54 kDa. The effect of external modulation on cumulative urokinase production was visualized as trajectories with respect to the ratio of lactic acid production rate (LPR) to the glucose uptake rate (GUR). The collective external modulation data showed two separate physiological regions in the cumulative urokinase vs. LPR/GUR plane. The HT-1080 cells exhibited two distinct morphologies in these regions that may be related to acidosis and metastasis. These regions also correspond to low and high urokinase productivity.
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PMID:External modulation of HT-1080 human fibrosarcoma cells improves urokinase production. 1919 47