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)

The extracellular matrix secreted by cultured bovine smooth muscle cells (BSMC) contains an endothelial type plasminogen activator (PA) inhibitor. When PA is incubated with the matrix, a high molecular weight complex containing a truncated PA inhibitor is released into the supernatant. The inhibitor also dissociates from the matrix by treatment with glycine, pH 2.7, in its intact, functionally active, 45-kD form, whereas treatment of the matrix with thrombin results in the release of a cleaved, inactive, 41 kD PA inhibitor. Bowes melanoma cells but not smooth muscle cells cultured on BSMC matrices decrease available matrix associated PA inhibitor. PA inhibitor incorporated into the extracellular matrix may serve an important role in the regulation of plasminogen activator mediated matrix degradation.
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PMID:Plasminogen activator inhibitor is associated with the extracellular matrix of cultured bovine smooth muscle cells. 311 43

A synthetic nonapeptide fragment of thrombin inhibits the cellular motility in culture of a human melanoma subclone that possesses a high metastatic potential in mice. Concomitant with the loss of ability to translocate in culture, these cells exhibit increases in the average length of actin cables and cellular surface area in contact with the substratum. The spreading activity is observed at a nonapeptide concentration of 1 nM within 1 hr of exposure at 37 degrees C. Pretreatment of cells with this nonapeptide does not block signal transduction through plasma membrane receptors for the following growth or differentiation factors: alpha-melanotropin (alpha-melanocyte-stimulating hormone), nerve growth factor, and transforming growth factor type beta. Results of the present study suggest an approach to cancer chemotherapy in which naturally occurring peptides from two functionally orthogonal classes may be used to perform two complementary functions: inhibition of metastasis and induction of differentiation.
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PMID:Identification of a synthetic nonapeptide sequence that inhibits motility in culture of a melanoma subclone that possesses a high metastatic potential. 348 May 26

Blood platelets have been suggested to play an important role in modulating the development of experimental metastases. Tumour cells can induce platelet aggregation in vitro and a number of mechanisms have been proposed to explain the in vivo and in vitro observations. In the present study, we used tumour cells cloned from B16 melanoma and mouse mammary tumour virus (MMTV) carcinoma polyclonal populations to check whether tumour cells with low- and high-metastatic behaviour in vivo had different quantitative and qualitative platelet-aggregating activity in vitro. We found no significant quantitative difference between platelet aggregation induced by the low- and the high-metastatic clones. Indeed both the high and the low metastatic B16 melanoma clones poorly aggregated platelets, while both the high and low metastatic MMTV carcinoma clones efficiently aggregated platelets. Both the B16 melanoma and the MMTV carcinoma parental cell lines, which can be classed as intermediate metastatic, aggregated platelets well. However, based on the results with heparin and creatine phosphate/creatine phosphokinase, it appeared that qualitative differences might exist in the mechanism of platelet aggregation by tumour cells. For the parental lines and highly metastatic clone C1 a thrombin-linked component was more important than an ADP-like component, which was nevertheless present, to promote platelet aggregation. For the low-metastatic clone C2, the ADP-like component appeared to be the most important.
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PMID:Tumour-cell-induced platelet aggregation: studies with cloned metastatic and non-metastatic variants. 367 44

The effect of anticoagulant drugs on formation of experimental tumor metastases after i.v. inoculation of BL6 melanoma or Lewis lung carcinoma (3LL) cells was studied in mice with stimulated or depressed natural killer (NK) cell activity. When mice were treated with anticoagulants (warfarin or heparin) or when NK cell activity was stimulated by polyinosinic-polycytidylic acid, significant antimetastatic effects were observed; these effects were substantially augmented when the treatments were combined. However, when NK reactivity of mice was suppressed by anti-asialo GM1 serum or cyclophosphamide, the antimetastatic effects of warfarin and heparin were diminished or completely abrogated. In some experiments, the anticoagulants had a partial effect in mice treated with cyclophosphamide or anti-asialo GM1 serum and reduced at least to control levels the number of metastases in these mice. This limited antimetastatic effect of the anticoagulants was mostly due to the action of residual NK cells, since it was completely abrogated in mice whose NK cell activity was more completely suppressed by two injections of anti-asialo GM1 serum. In addition, the low NK reactivity of 3-week-old C57BL/6 or beige mice was sufficient to support the antimetastatic effects of the anticoagulants, effects that completely disappeared after these mice were treated with anti-asialo GM1 serum. Augmentation or abrogation of the antimetastatic effects of heparin after polyinosinic-polycytidylic acid or anti-asialo GM1 treatments, respectively, was observed in athymic nude and allogeneic BALB/c mice that received i.v. injections of B16F1 melanoma cells, indicating that the antimetastatic effects of anticoagulants depend on the presence of active NK rather than T-cells. Furthermore, adoptive transfer of NK-competent but not NK-depleted syngeneic spleen cells restored the antimetastatic effect of heparin in cyclophosphamide-treated mice. Warfarin treatment increased the elimination of radiolabeled BL6 melanoma cells from the lungs of normal mice, and the rate of tumor cell elimination was further potentiated when NK cell activity was stimulated by polyinosinic-polycytidylic acid. In contrast, after anti-asialo GM1 treatment, warfarin had no effect on the survival of i.v. administered tumor cells. Covering of YAC-1 or 3LL tumor cells with fibrin after in vitro exposure with fibrinogen and thrombin substantially protected them from the in vitro cytotoxic action of NK or lymphokine-activated killer cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Augmentation of the antimetastatic effect of anticoagulant drugs by immunostimulation in mice. 380 83

A simple, sensitive and specific assay for plasminogen activators is described. The assay utilizes fluorescein-labeled fibrinogen or fibrin at low concentrations, and enables simultaneous evaluation of the plasminogen and fibrin dependence of the reaction, that is, discrimination of tissue-type and urokinase-type plasminogen activators, and non-specific proteolysis. Addition of antisera verify identification of the activator species. The assay reagent contains plasminogen and fluorescein-labeled fibrinogen, to which is added the specimen and then then thrombin, either at the initiation or the termination of the reaction. Supernatant fluorescence is proportional to plasminogen activator concentration. With a four-hour incubation, 1 milliunit (14 pg) of tissue (melanoma) plasminogen activator (TPA) or 2 milliunit (36 pg) of urokinase (UK) may be detected.
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PMID:A sensitive and specific assay for plasminogen activators. 403 78

Because tumor-induced platelet aggregation appears to play a role in the development of certain experimental tumor metastases, we examined the mechanism(s) of tumor-induced platelet aggregation as well as the effect of various anti-platelets agents. Two mechanisms for tumor-induced platelets aggregation have been previously described: (1) a mechanism which requires complement, a stable plasma factor, divalent cation and a sialo-lipo-protein vesicular component of the tumor membrane for platelet aggregation; and (2) a mechanism which operates via the generation of thrombin and requires a phospholipid component of the tumor membrane. We now report a new mechanism of tumor-induced platelet aggregation which is shared by three different tumors: a spontaneously metastatic human melanoma, HM29, a murine melanoma, B16F10, and a carcinogen-induced metastatic murine colon carcinoma, CT26. These tumors do not require cell-surface sialic acid or serum complement as does the first mechanism. They do not require cell-surface phospholipid, as do the tumors representing the other two mechanism. They do not aggregate platelets via the generation of thrombin as do tumors representing the second mechanism. These tumors are unique in that they require a trypsin-sensitive surface protein for activity. The ability of the thrombin-generating tumors to aggregate platelets is uniquely sensitive to two highly specific, synthetic thrombin-competitive inhibitors: DAPA and No. 805. The other two groups of tumors are at least 10 times more sensitive to inhibition of platelet aggregation by elevation of cyclic AMP levels (prostacyclin, 6-keto-PGE1, dibutyryl cyclic AMP) and at least 10 times more sensitive to inhibition of prostaglandin synthesis (indomethacin, ibuprofen). Thus, tumor-induced platelet aggregation is heterogeneous with respect to mechanism of action as well as inhibition by anti-platelet pharmacologic agents. Sensitivity to anti-platelet agents correlates with the mechanism by which tumor cells aggregate platelets.
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PMID:A new mechanism for tumor induced platelet aggregation. Comparison with mechanisms shared by other tumor with possible pharmacologic strategy toward prevention of metastases. 629 77

Tissue kallikrein and factor Xa were found to activate tissue plasminogen activator (t-PA) at a rate comparable with that of plasmin. During the activation reaction, the single-chain molecule was converted into a two-chain form. A slight t-PA activating activity was also found in plasma kallikrein. Other activated coagulation factors, factor XIIa, factor XIa, factor IXa, factor VIIa, thrombin and activated protein C had no effect on t-PA activation. t-PA was also activated by a tissue kallikrein-like enzyme that was isolated from the culture medium of melanoma cells. These results indicate that tissue kallikrein and factor Xa may participate in the extrinsic pathway of human fibrinolysis.
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PMID:Proteolytic activation of tissue plasminogen activator by plasma and tissue enzymes. 656 16

This paper reports studies on the interaction between human platelets, the plasma coagulation system, and two human tumor cell lines grown in tissue culture: Melanoma and breast adenocarcinoma. The interaction was monitored through the use of 125I-labelled fibrinogen, which measures both thrombin activity generated by cell-plasma interaction and fibrin/fibrinogen binding to platelets and tumor cells. Each tumor cell line activates both the platelets and the coagulation system simultaneously resulting in the generation of thrombin or thrombin-like activity. The melanoma cells activate the coagulation system through "the extrinsic pathway" with a tissue factor-like effect on factor VII, but the breast tumor seems to activate factor X directly. Both tumor cell lines activate platelets to "make available" a platelet-derived procoagulant material necessary for the conversion of prothrombin to thrombin. The tumor-derived procoagulant activity and the platelet aggregating potential of cells do not seem to be inter-related, and they are not specific to malignant cells.
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PMID:Interaction of human tumor cells with human platelets and the coagulation system. 664 93

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


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