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: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human tissue-type plasminogen activator (t-PA), obtained by expression in mammalian cells of recombinant DNA coding for the entire sequence of t-PA (rt-PA), was compared with natural activator from melanoma cell culture (mt-PA). In an in vitro system, composed of [125I]fibrinogen-labeled plasma clot suspended in circulating human plasma, rt-PA and mt-PA caused a very similar dose-related degree of fibrinolysis without causing extensive fibrinolytic activation and fibrinogen breakdown in the surrounding plasma. Urokinase only induced fibrinolysis at a 5- to 10-fold higher concentration and in association with extensive fibrinogenolysis. Intravenous injection of mixtures of labeled (0.4 microCi/kg) and unlabeled (2000 I.U./kg) mt-PA or rt-PA resulted in a rapid but similar disappearance of activity from plasma (T1/2 of 3 min) and specific accumulation of tracer in the liver. In rabbits with experimental jugular vein thrombosis, rt-PA and mt-PA caused a very similar dose-dependent thrombolysis without causing substantial systemic activation of the fibrinolytic system and fibrinogenolysis. Urokinase induced significant thrombolysis only at a 10-fold higher dose and this was associated with systemic fibrinolytic activation. Infusion of 96,000 I.U./kg (approximately equal to 1 mg/kg) of mt-PA or rt-PA over 4 hr induced approximately 70% lysis, whereas a 10-fold higher dose of urokinase yielded 35 to 40% lysis. Two subfractions of rt-PA differing in the extent of glycosylation had very similar thrombolytic properties. It is concluded that the potentially more readily available rt-PA could constitute a specific, fibrin-selective thrombolytic agent.
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PMID:Biological properties of human tissue-type plasminogen activator obtained by expression of recombinant DNA in mammalian cells. 654 93

MCF-7 human breast cancer cells secrete two immunologic types of plasminogen activator, one related to urokinase, the other unrelated. We have now examined whether estrogen stimulation of secreted plasminogen activator activity reflects an increase in one or both types. Examined semiquantitatively by sodium dodecyl sulfate-polyacrylamide gel electrophoretic zymography, the conditioned media of control cells were seen to contain a major activator band (Mr approximately 54,000) immunologically related to urokinase and a barely discernible doublet (Mr approximately 64,000 and Mr approximately 68,000). Addition of estradiol or, at much higher concentrations, testosterone led to marked enhancement of doublet activity, while the 54-kDa band was invariant. The 64-68-kDa doublet was immunoreactive with antiserum directed against Bowes melanoma tissue plasminogen activator but not with antiurokinase antibodies. Enhancement of doublet activity was correlated with hormone-induced increases in total secreted plasminogen activator activity. Neither progesterone nor dexamethasone increased total activity or the 64-68-kDa zones of lysis. Estradiol and testosterone alterations were blocked by appropriate concentrations of an estrogen antagonist (LY156758), actinomycin D, or cycloheximide. Regulation of MCF-7 cell-secreted tissue plasminogen activators thus appears to be mediated by an estrogen receptor process and to require sustained RNA and protein synthesis.
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PMID:Estradiol preferentially enhances extracellular tissue plasminogen activators of MCF-7 breast cancer cells. 654 3

Conditioned medium from cultures of human umbilical vein endothelial cells was analyzed for the presence of tissue plasminogen activator (tPA) and urokinase. Immunoprecipitation studies using metabolically labeled conditioned medium and anti-tPA IgG revealed a single band on autoradiographs corresponding to a Mr of 100,000. No bands were observed after immunoprecipitation with anti-urokinase IgG. The Mr 100,000 tPA was found to be inactive and did not bind to fibrin clots. However, exposure of this tPA to 1% NaDodSO4 resulted in the appearance of plasminogen activator activity with no apparent change in its Mr. Treatment with 10 mM diisopropylfluorophosphate prior to NaDodSO4 activation did not inhibit the NaDodSO4-induced appearance of plasminogen activator activity, indicating that the active site was not available for diisopropylfluorophosphate binding. The possibility that the properties of this Mr 100,000 tPA reflected a tPA-inhibitor complex was examined. Attempts to dissociate such a complex by denaturation, reduction, or extremes of temperature were not successful. However, after treatment of conditioned medium with 1 M hydroxylamine in the presence of 0.1% NaDodSO4, the Mr of the anti-tPA immunoprecipitable material declined by 40,000 to Mr 60,000, a Mr consistent with that of other human tPAs. Hydroxylamine has been shown previously to dissociate covalently coupled serine protease-inhibitor complexes. Furthermore, incubation of purified human melanoma cell tPA with conditioned medium resulted in an increase in its Mr by 40,000 with a concomitant decline in tPA activity. The data suggest that the latent tPA present in the conditioned medium of endothelial cells is composed of a Mr 60,000 tPA associated with an inhibitor.
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PMID:Latent tissue plasminogen activator produced by human endothelial cells in culture: evidence for an enzyme-inhibitor complex. 658 Jun 16

A simple venous thrombosis model in rabbits was used for the quantitative evaluation of the thrombolytic effect of human extrinsic (tissue-type) plasminogen activator as compared with urokinase.A thrombus was formed in an isolated segment of the jugular vein from a mixture of (125)I-labeled fibrinogen, whole rabbit blood, and thrombin. In order to immobilize the thrombus during lysis, it was formed around a woolen thread introduced longitudinally in the lumen of the vein. Thrombotic extension of the clot was prevented by subcutaneous injection of heparin. The extent of thrombolysis was measured as the difference between the radioactivity introduced in the clot and that recovered in the vein segment at the end of the experiment. In control animals the extent of thrombolysis was 5.6+/-1.4% (n = 5) after 6 h, 14.5+/-1.7% (n = 10) after 30 h, 16.0+/-1.5% (n = 11) after 78 h, and 48.1+/-2.7% (n = 10) after 174 h (mean+/-SEM). Extrinsic (tissue-type) plasminogen activator, highly purified from the culture fluid of a human melanoma cell line, was administered systemically or locally over a time period of 4 h and the percent thrombolysis measured 2 h after the end of the infusion. One- and two-chain extrinsic plasminogen activator had very similar thrombolytic potency. Systemic infusion resulted in a dose-dependent degree of thrombolysis. The activator-induced thrombolysis, after infusion of 100,000 IU ( congruent with1 mg protein), was approximately 75% for fresh clots, 35% for 1-d-old clots, 30% for 3-d-old clots, and 50% for 7-d-old clots. The thrombolytic activity of urokinase was more than five times lower than that of extrinsic plasminogen activator: Infusion of 500,000 IU resulted in approximately 40% lysis of fresh clots and 25% of 1-3-d-old clots, while 7-d-old clots appeared to have become resistent to urokinase. Local infusion resulted in a 5-10 times higher thrombolytic effect of both extrinsic plasminogen activator and urokinase. Thrombolysis with extrinsic plasminogen activator was not associated with systemic activation of the fibrinolytic system as evidenced by unaltered plasma levels of fibrinogen, plasminogen, and alpha(2)-antiplasmin. Systemic infusion of urokinase resulted in significant thrombolysis only at doses that were associated with disseminated plasminogen activation. Local infusion of urokinase required a 5-10-fold higher dose than extrinsic plasminogen activator to obtain a similar degree of thrombolysis, which also occurred in the absence of systemic activation of the fibrinolytic system. It is concluded that the extent of thrombolysis by extrinsic plasminogen activator is mainly determined by the dose of activator and its delivery in the vicinity of the thrombus and much less by the age of the thrombus or the molecular form of the activator. Extrinsic plasminogen activator appears to be superior to urokinase because of its higher (5-10-fold) specific thrombolytic activity and the absence of systemic activation of the fibrinolytic system, which results in defibrinogenation and a bleeding tendency.
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PMID:Thrombolysis with human extrinsic (tissue-type) plasminogen activator in rabbits with experimental jugular vein thrombosis. Effect of molecular form and dose of activator, age of the thrombus, and route of administration. 668 15

The plasminogen activator from a human melanoma cell line was purified with immunoadsorption as a major step. The cells were cultured in the presence of aprotinin in order to avoid proteolysis. A three-step purification involved adsorption on antibodies to porcine tissue plasminogen activator before chromatographies on arginine-Sepharose and Sephadex G-150. All solvents contained Tween-80 (0.01%) and, except for the last step, aprotinin. The final product had a specific activity of about 220000 IU/mg measured against the WHO urokinase standard. The activator obtained has an apparent Mr of 72000 and consists of single-chain molecules. Evidence was obtained that four different types of activator variants occur. First and known previously, the one-chain form can be proteolytically cleaved into a two-chain form. Secondly, both the one-chain and two-chain molecules exhibit two forms with molecular weight differences of about 3000 (possibly due to carbohydrate differences). Thirdly, the one-chain preparations contain two variants, each constituting about 50% of the material and differing in length by three N-terminal amino acids. Finally, a possible positional microheterogeneity was detected. Digestion with plasmin yields the two-chain form with disulfide-bonded polypeptide chains, 'A' and 'B' (from the N-terminal and C-terminal parts, respectively). At the same time, the variability of the original N terminus is removed. The A chain keeps the two Mr variants (now about 40000 and 37000, respectively). The B chain (Mr about 33000) contains the active site of the molecule, as demonstrated by labelling with [3H]diisopropyl phosphofluoridate, and is homologous to the enzymatically active chains of thrombin, plasmin and other serine proteases. In contrast to these enzymes, the plasminogen activator is enzymatically active in the one-chain form. A speculative explanation for this activity may possibly be the presence of an epsilon-amino group of a lysine residue at a position close to the bond cleaved in the two-chain form.
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PMID:Purification and characterization of a melanoma cell plasminogen activator. 668 60

A histochemical technique was used to identify the activity of the plasminogen activator (PA) in the vessel wall of veins. Antibodies against melanoma cell activator and urokinase (UK), both raised in goats, were mixed into the fibrin film. The PA activity was quenched by the antibodies against melanoma activator but remained unchanged when antibodies against UK, or an IgG preparation of normal goat serum, was mixed in the fibrin film. The results of this study show that the PA activity in the vein vessel wall is immunologically similar to or identical to the PA derived from melanoma cells which has previously been shown to cross-react with the tissue-like PA. No UK-like activity was present in the vessel wall.
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PMID:Immunological characterisation of plasminogen activators in the human vessel wall. 668 28

Zymographic analysis of the supernates from confluent cultures of a rat prostate adenocarcinoma cell line, PA-III, revealed the existence of two molecular forms of specific plasminogen activators, one of molecular weight of approximately 80 000 and another of approximate molecular weight of 45 000, in sodium dodecyl sulfate. The low molecular weight form has been purified 364-fold in 66% yield from the culture medium by a combination of gel filtration on Sephacryl S-200 and affinity chromatography on Sepharose 4B-benzamidine. The purified material possessed a specific activity of 192 000 urokinase CTA units mg-1. This enzyme displayed activity toward human Glu1-plasminogen, characterized by a Km of 1.7 +/- 0.2 microM and a Vmax of 0.53 +/- 0.1 pmol of plasmin min-1 unit-1. A synthetic chromogenic substrate, H-D-Ile-Pro-Arg-p-nitroanilide (S-2288), was found for the activator. The enzyme possessed a Km of 0.33 mM and a kcat of 55 s-1 for S-2288. The activator was found to be a serine protease, inhibited by diisopropyl fluorophosphate (iPr2PF). At a concentration of 1 mM iPr2PF, and 30 nM enzyme, the half-time of this inhibition was 3.8 min. The 45 000 molecular weight enzyme was found to be inhibited by rabbit antibodies to human urokinase, thus characterizing the activator as a member of the urokinase class. The 80 000 molecular weight enzyme was not neutralized by anti-human urokinase but was neutralized by rabbit anti-human melanoma activator, likely allowing it to be classified as the tissue activator type.
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PMID:Purification and properties of a plasminogen activator from cultured rat prostate adenocarcinoma cells. 668 52

Incubation of human Glu-plasminogen with 1,5-difluoro-2,4-dinitrobenzene leads to the specific intra-molecular cross-linking of the kringle 1+2+3 region and the light (B) chain region of plasminogen. This cross-link was found to prevent the conformational change which is induced in Glu-plasminogen by lysine analogues or by proteolytic removal of the NH2-terminal peptide. Our results suggest that the cross-link freezes the closed conformation of Glu-plasminogen, and it seems likely that the transition to the loose conformer requires separation of the kringle 1+2+3 region from the light (B) chain portion. The change in the relative position of these regions during the conformational change in plasminogen is also indicated by our observation that the rate of formation of the intramolecular cross-link is significantly decreased when transition to the loose conformer is induced either by saturation of the lysine-binding sites or by conversion to Lys-plasminogen. Cross-linked Glu-plasminogen is slowly activated by urokinase and melanoma tissue plasminogen activator, but in contrast with uncross-linked Glu-plasminogen conversion to Lys-plasminogen or saturation of lysine-binding sites with ligand does not increase the rate of activation because the cross-link prevents transition to the loose conformer which is susceptible to activation. The fibrin affinity of cross-linked Glu-plasminogen is practically identical with that of Glu-plasminogen. As in the case of uncross-linked Glu-plasminogen, removal of the NH2-terminal peptide causes a marked increase in fibrin affinity although the resulting cross-linked Lys-plasminogen is fixed in the closed conformation. This result suggests that the NH2-terminal peptide inhibits binding of plasminogen to fibrin by direct interaction with the fibrin-binding site, and the conformational change that normally accompanies its removal is not a prerequisite of strong binding.
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PMID:Importance of intramolecular interactions in the control of the fibrin affinity and activation of human plasminogen. 672 59

Explants of fetal tissues were maintained in organ cultures for 2-3 weeks and the conditioned culture media analysed for the two main plasminogen activators, tissue activator and urokinase. A new immunoradiometric method was used for determining the tissue activator. The method is based on 125I-labelled antibodies to a tissue plasminogen activator which was purified from the culture medium of an established melanoma cell line. It detected tissue activator in a concentration of 1 microgram/1 or even less. Urokinase was measured with a RIA. Explants of kidney as well as thyroid gland and thymus released very substantial amounts of urokinase and smaller amounts of tissue activator. Urokinase was also detected in media conditioned by skin, spleen and pancreas. Aorta explants released only the tissue activator. The capacity of many tissues to release urokinase indicates that this is a more significant plasminogen activator in extrarenal organs that hitherto realized. The tissue activator is probably confined to vascular structures.
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PMID:Immunoradiometric quantification of tissue plasminogen activator secreted by fetal organs. Comparison with urokinase. 675

The plasminogen activator secreted by a cultured human melanoma cell line was purified and compared with urokinase and with tissue plasminogen activator from human uterus. The purification procedure consisted of chromatography on zinc chelate-agarose, concanavalin A-agarose, and Sephadex G-150 in the presence of 0.01% (v/v) Tween 80. The purified material was obtained from the culture medium with a yield of 46% and a purification factor of 263. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed one main band with a molecular weight of about 72,000, and in the presence of reducing agents, two bands of 33,000 and 39,000. Addition of the protease inhibitor Aprotinin to the culture media and column buffers yielded a one-chain plasminogen activator with a molecular weight of about 72,000. One molecule of activator reacted with about one molecular of [3H]diisopropylfluorophosphate. The melanoma plasminogen activator and the uterine tissue plasminogen activator appeared to be very similar on dodecyl sulfate-polyacrylamide gel electrophoresis, amino acid analysis, and amidolytic properties. Both activators bound to fibrin clots, while urokinase did not. In immunodiffusion, as well as in quenching experiments of the fibrinolytic activities, the melanoma plasminogen activator appeared to be immunologically identical with the uterine tissue plasminogen activator, but unrelated to urokinase. All these findings indicate that the plasminogen activator secreted by human melanoma cells in culture is very similar to, or identical with, the plasminogen activator found in normal tissue, but different from urokinase.
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PMID:Purification and characterization of the plasminogen activator secreted by human melanoma cells in culture. 678 58


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