Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0035412 (rhabdomyosarcoma)
 6,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serine proteases or esterases released from cell cultures into the growth medium were converted to radioactive derivatives by active site labeling with tritiated DFP, both in the presence and absence of other competing active site reagents. The individual labeled enzymes were then identified by SDS-polyacrylamide gel electrophoresis and scintillation autoradiography. Conditioned medium from embryonal mouse fibroblasts transformed by mouse sarcoma virus contained five serine enzymes that were not present in medium from normal cells; two serine enzymes were released by both cell types, and one serine enzyme was found only in medium from normal cells. Two of the enzymes released by transformed cells were identified as plasminogen activators; these accounted for most of the serine enzyme labeling in transformed culture media and for most of the serine enzyme difference between normal and transformed cultures. The culture fluids from two cell strains of human neoplastic origin were examined by the same method. A rhabdomyosarcoma strain released eight serine enzymes (mol wt ranging from 22,500 to 102,000), four of which were plasminogen activators; seven serine enzymes (mol wt 26,000-102,000), including two plasminogen activators, were detected in medium from human melanoma cultures. In terms of electrophoretic mobility two of the plasminogen activators from rhabdomyosarcoma were identical with those from melanoma cultures, while the remaining two rhabdomyosarcoma activators coincided with activators found in commerical urokinase.
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PMID:Serine enzymes released by cultured neoplastic cells. 63 49

The functional operation of the cell surface pro-u-PA and plasminogen activating system has previously been shown to depend on the assembly of u-PA receptors, plasminogen binding sites, and their respective ligands at the focal adhesions of cell extensions. We now show that additional factors operate that affect the persistence of functional activity and that evidently involve charge interactions mediated by polyanions, such as those found in the cell surface proteoglycans. Heparin-like compounds and protamine were identified as fast-acting stimulators of cell surface plasminogen activation. Heparin stabilized surface u-PA activity during plasminogen activation, and we propose that a heparin binding site exists in the kringle structure of u-PA. Heparin at 40 micrograms/ml could reduce u-PA loss to only 20% compared with 60% on control cells activating plasminogen. Protamine (25 micrograms/ml) exerted a strong stimulatory effect on the level of generated bound plasmin and notably prolonged the persistence of this activity, so that 100 minutes after addition of plasminogen the level of plasmin on protamine-treated cells was five times higher than on control-treated cells. The effect of protamine on plasmin clearance suggests that an unknown plasmin inhibitor may be produced by rhabdomyosarcoma cells, whose action is accelerated by endogenous polyanions, in an analogous manner to thrombin inactivation by antithrombin III and protease nexin on endothelial cells and fibroblasts, respectively. The stimulatory effects of heparin and protamine do not affect the inactivation of cell surface u-PA by recombinant PAI-2.
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PMID:Stimulation of cell surface plasminogen activation by heparin and related polyionic substances. 183 80

Thrombolytic therapy usually used for thrombosis in the adult has been administered as a therapeutic regiment in pediatric patients (parental consent was sought prior to the treatment with rt-PA). We report our experience with rt-PA in 17 children and adolescents suffering from arterial (n = 4) or venous thrombosis (n = 13) due to local rhabdomyosarcoma, acute lymphoblastic leukemia, chronic myeloblastosis, sickle cell anaemia, parenteral nutrition, haemolytic uremic syndrome, central arterial and venous catheters and septicemia Thrombotic diseases have been diagnosed by Doppler ultrasound, computed tomography, angiography and phlebography. Rt-PA therapy was started immediately after diagnostic procedures had been performed. Rt-PA dose varied from 0.2 mg as a single dose to 0.8 mg/kg bw/d over a three day period in children local thrombolysis was performed. In patients requiring systemic thrombolytic therapy rt-PA was administered from 0.8 mg/kg bw/d in three days to 2.0 mg/kg bw/d over a whole period of three weeks in both groups during thrombolysis low dose heparin was added. When rt-PA infusion was terminated heparin (70 IU - 400 IU/kg bw/d) was administered for 7 to 14 days in order to prevent reocclusion. Later prophylaxis with coumarin derivatives in venous thrombosis and antiplatelet agents in arterial occlusive diseases was performed. In no patient did we see a decrease of fibrinogen and plasminogen during rt-PA therapy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Thrombolysis with rt-PA in children with arterial and venous thromboses--a new therapy concept]. 194 42

Recombinant class 2 plasminogen activator inhibitor (PAI-2) was used in an approach to probe the formation and location of enzymatically active urokinase-type plasminogen activator (u-PA) sites on the surface of cultured human rhabdomyosarcoma cells (RD cells). Activation of pro-u-PA on the cell surface and consequent binding of PAI-2 was dependent on the addition of native plasminogen to serum cultures of the cells. Inhibition of the enzyme activity of surface-bound u-PA by the added PAI-2 resulted in a 79% reduction in the capacity of the RD cells to generate cell surface-associated plasmin activity from bound plasminogen. Under these conditions, the PAI-2 probe was localized at focal adhesions of RD cells, where it colocalized with both extracellular u-PA and intracellular vinculin antigens in double immunofluorescence labeling. Specificity of the probe's interaction with cell surface-bound u-PA was confirmed by blocking with a monoclonal antibody to human u-PA, which could also inhibit the formation of bound plasmin activity. These results showed the assembly of the plasmin-generating system at focal adhesions and the accessibility of bound u-PA on which it depends to added PAI-2. Therefore, PAI-2 has the potential both to localize at sites of tumor expression of functionally active u-PA and simultaneously to inhibit cell surface plasminogen activation.
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PMID:Prourokinase activation on the surface of human rhabdomyosarcoma cells: localization and inactivation of newly formed urokinase-type plasminogen activator by recombinant class 2 plasminogen activator inhibitor. 213 29

Destruction of the extracellular matrix is often observed during tumor invasion, and proteolytic enzymes may participate actively in the degradation of matrix proteins. The present report elucidates the role of plasminogen in the degradation by tumor cells of an in vitro elaborated extracellular matrix. Matrices produced by rat smooth muscle cells in the presence of [3H]proline or [3H]fucose were used as substrates for human fibrosarcoma cells (HT-1080), mouse melanoma cells (B16F1), or human rhabdomyosarcoma cells (RD). All three cell lines degraded part of the glycoprotein compartment of the matrix. HT-1080 cells digested the matrices in a density-dependent manner, and while matrix glycoprotein degradation was plasminogen-dependent at the beginning of the experiment and at low cell densities, the zymogen was not essential for further glycoprotein digestion at high cell densities. Depletion of plasminogen from the growth medium resulted in a threefold reduction of matrix degradation by B16F1 cells showing a distinct plasminogen dependency at low cell numbers. RD cells digested only matrix glycoproteins, and this degradation was completely dependent on the presence of plasminogen at all cell densities. These results suggested that plasmin generated from plasminogen by a tumor cell-associated plasminogen activator may be most important for matrix hydrolysis at low cell densities, and while certain tumor cell lines showed a definite plasminogen-independent matrix degradation with increased cell numbers, other neoplastic cells hydrolyzed the matrix only in the presence of the zymogen at all cell densities.
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PMID:Role of plasminogen in matrix breakdown by neoplastic cells. 658 58