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)

A sensitive method for measuring cell surface and secreted protease activity utilizing 3H-labelled casein is described. The method is based upon proteolytic degradation of the casein substrate into trichloracetic acid soluble 3H-labelled peptides. Utilizing the radioassay we found that all cultured cell lines examined contain cell surface proteolytic activity which is not secreted into the media. The protease activity was found to be due to protease(s) other than plasminogen activator or plasmin. A comparison of surface protease activity of normal and transformed mouse epidermal cells indicated that the transformed cells contained approximately 3--1 times more proteolytic activity than the normal cells. Surface protease activity was also correlated with the doubling times of various cultured cells. The results indicated that cultured cells with doubling times of greater than three days possess less surface protease activity than cells with shorter doubling times. In order to determine changes in the levels of surface protease activity during the cell cycle several cell lines were synchronized. In synchronized rabbit aortic fibroblasts, mouse transformed epidermal cells and human melanoma cells, a marked increase in surface protease activity was observed during or before mitosis. The protease levels decreased following mitosis. The results suggest that in culture, cell surface protease(s) may be important factor in regulating the rate of cell growth.
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PMID:Relationship between cell surface protease activity and doubling time in various normal and transformed cells. 13 86

Clone B559 mouse melanoma cells are highly tumorigenic and produce plasminogen activator. Cells of clone C3471, a line obtained by continued growth of B559 cells in medium containing 5-bromodeoxyuridine (1 microgram/ml), have no plasminogen activator and are non-tumorigenic. When B559 cells are co-cultivated with C3471 cells, the ability of B559 cells to activate plasminogen is suppressed. Under these conditions cell fusion occurs. Lack of expression of plasminogen activators is not a consequence of cell fusion, inhibition of cell division or release of soluble inhibitors of either plasminogen activators or plasmin. No inhibitors of plasminogen activators could be demonstrated in association with sub cellular fractions of C3471 cells or with the C-type viral particles released from C3471 cells. Close contact between cells of the two lines is shown to be essential for suppression of plasminogen activation.
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PMID:Co-cultivation of tumorigenic mouse melanoma cells with cells of a non-tumorigenic subclone inhibits plasminogen activator expression by the melanoma cells. 20 66

We studied the role of the fibrinolytic function in the invasiveness of murine melanoma B16F1 and F10 cells using a reconstituted matrix on a filter in a modified Boyden chamber. The main species of plasminogen activators (PAs) synthesized in cell lysates and released into conditioned media by these cells was found to be tissue-type PA (t-PA). The invasiveness of these cell lines was enhanced by adding plasminogen to the gel matrix. This enhancing effect of plasminogen was markedly suppressed by adding anti-t-PA IgG and plasmin inhibitors into the gel matrix, but less affected by anti-urokinase-type PA (u-PA) IgG, offering more evidence to the hypothesis that the activation of the fibrinolytic system by PAs plays an important role in the invasiveness of murine melanoma B16 cell lines, and indicating that t-PA contributed more than u-PA to the invasive potential of these cells into the pericellular matrix.
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PMID:Fibrinolysis activity promotes tumor invasiveness of B16 melanoma cell lines through a reconstituted gel matrix. 138 Sep 52

Recently, we have shown that plasminogen activators (PAs) of both types, urokinase-type (uPA) as well as tissue-type (tPA), are involved in the in vitro invasiveness of human melanoma cells. The present study is focused on the generation and importance of cell surface-bound plasmin in this process. The human melanoma cell lines MelJuso and MeWo expressed plasminogen binding sites on the cell surface. Plasminogen binding was saturable and not species-specific, since human and bovine plasminogen bound to the cells with comparable efficiency. The activation of the proenzyme plasminogen bound on MelJuso cells, which expressed surface-associated uPA activity, occurred almost synchronously with binding to the cell surface. Removal of cell-associated uPA considerably reduced plasmin generation on these cells. In contrast, plasminogen activation on MeWo cells, which secreted tPA into the culture supernatant and which were devoid of surface-associated PA activity, was by far less effective. The efficiency of the activation process could be increased by addition of exogenous tPA. With both cell lines, plasmin generation on the cell surface was suppressed by inhibitory monoclonal antibodies specific for the respective PA type. Selective inhibition of cell surface-associated plasmin by preincubating the cells with an inhibitory monoclonal antibody or with aprotinin, as well as removal of plasmin from the cell surface, led to a significant decrease in cellular invasiveness of both cell lines into various biological substrates such as fibrin gel, the basement membrane extract Matrigel, or intact extracellular matrix. Both cell lines were able to penetrate an intact cell layer of the human keratinocyte line HaCaT, a process, which also proved to be dependent on cell-associated plasmin. In conclusion, these data provide evidence that plasminogen activation associated with the surface of human melanoma cells is catalyzed much more efficiently by cell-associated uPA (MelJuso) than by secreted tPA (MeWo). Cell-associated plasmin, which is protected from inactivation by serum inhibitors, represents the essential component of the proteolytic cascade of plasminogen activation during in vitro invasiveness of human melanoma cells.
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PMID:Generation of cell surface-bound plasmin by cell-associated urokinase-type or secreted tissue-type plasminogen activator: a key event in melanoma cell invasiveness in vitro. 153 56

Several human melanoma cell lines produced tissue-type plasminogen activator (t-PA), as detected by zymography and immunocapture assay of culture media and cell lysates. Urokinase (u-PA) was found at only less than or equal to 1% the level of t-PA. Acid eluates of the cell surface indicated that the melanoma cells had t-PA bound on their surface, but no u-PA, and also had a very low capacity to bind exogenous u-PA. After incubation of the melanoma cells with 10% plasminogen-depleted fetal calf serum and human plasminogen, bound plasmin activity could be eluted from the cell surface with tranexamic acid, an analogue of lysine. This indicated that plasminogen was activated on the cell surface. The cell-surface plasmin formation was inhibited by an anti-catalytic monoclonal antibody to human t-PA, and not by an anti-catalytic antibody to u-PA. The melanoma cells also synthesized and secreted alpha 2-macroglobulin (alpha 2M), as shown by alpha 2M-specific mRNA in Northern blotting and detection of alpha 2M protein in conditioned cell culture media. The media were found to inhibit u-PA but not t-PA. This inhibition was related to their alpha 2M content, and immunoabsorption of alpha 2M removed the inhibitory activity. These studies suggest that t-PA can bind to the surface of melanoma cells and generate surface-bound plasmin. Because t-PA and cell-bound plasmin are unaffected by alpha 2M, t-PA may, in the case of melanoma cells, serve an analogous function to u-PA in supporting tumor cell invasion.
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PMID:Plasminogen activation by t-PA on the surface of human melanoma cells in the presence of alpha 2-macroglobulin secretion. 171 33

Binding of iodine-125-labeled thrombin to fibrin clots from two siblings with juvenile stroke was 30% of normal, and abnormally high amounts of the radioligand (not adsorbed by fibrin) were found in the supernatant. In concordance with this finding, supernatants from the patients' fibrin clots caused abnormal enhancement of platelet aggregation, ATP secretion, and binding of 125I-fibrinogen to platelets exposed to subthreshold concentrations of ADP or epinephrine. Hirudin suppressed the enhancing effect of the patients' supernatants, and substitution of gamma-thrombin for alpha-thrombin led to normalization of platelet responses. Under some experimental conditions, degradation of the patients' fibrinogen by plasmin was impaired. However, the euglobulin lysis time, the rate of fibrin degradation by plasmin, and the lysis of the patients' plasma clots by human melanoma tissue-type plasminogen activator were normal. Patients' plasmas, as well as purified fibrinogen, showed a prolonged thrombin time (partially corrected by 10 mM CaCl2) and an impaired release of fibrinopeptide A in response to thrombin. However, the release in response to reptilase was normal, and the reptilase, ancrod, and thrombin coagulase times were within control (normal) values. In addition, the patients' fibrinogen showed normal polymerization of preformed fibrin monomers, normal sialic acid content, and normal binding to ADP or epinephrine-stimulated platelets. Our studies support the concept that thrombin and platelets play an important role in the occurrence of stroke in these patients and suggest a direction to be followed to identify the mechanism(s) contributing to thrombosis in subjects with abnormal fibrinopeptide release.
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PMID:A role for platelets and thrombin in the juvenile stroke of two siblings with defective thrombin-adsorbing capacity of fibrin(ogen). 182 31

To investigate short-term activation and inhibition of fibrinolysis during shock, we studied plasma levels of tissue-type plasminogen activator (t-PA) and t-PA inhibition capacity (PAI) in anaesthetized pigs. t-PA in euglobulin fractions of plasma was measured by the conversion of plasminogen to plasmin in the presence of fibrin split products. Plasmin thus generated was measured in a chromogenic substrate assay. PAI was measured as plasma inhibition capacity for human melanoma t-PA. Controls (n = 8) had constant t-PA and PAI for 6 h. Lipopolysaccharide from Salmonella abortus equi in four different doses (n = 9 - 11), or live Escherichia coli (n = 3) induced a transient t-PA increase with peak values at 2 h. PAI decreased to 50% at 2 h and increased to 250% at 6 h. Phorbol myristate acetate (n = 7) induced no change of t-PA or PAI. Dextran sulphate (n = 4) produced a t-PA rise at 30 min, followed by a rapid decline. Endotoxin was an appropriate stimulus for activation and inhibition of fibrinolysis whereas phorbol ester failed to elicit this response.
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PMID:Time dependent release of tissue-type plasminogen activator and plasminogen activator inhibitor into the circulation of pigs during shock. 183 37

Five out of six human melanoma cell lines tested were able to degrade in vitro a smooth muscle cell extracellular matrix in a plasmin-dependent way. In three of these five cell lines, this process was mediated by tissue-type plasminogen activator (t-PA) and in the other two cell lines by urokinase-type plasminogen activator (u-PA). All melanoma cell lines produced t-PA mRNA and protein, whereas only the two cell lines showing u-PA-mediated matrix degradation produced u-PA mRNA and protein. These latter cell lines also produced plasminogen activator inhibitor type-1 (PAI-1) and type-2 (PAI-2) mRNA and protein. u-PA receptor (u-PA-R) mRNA and binding of radiolabeled u-PA was found in all melanoma cell lines. The metastatic capacity of these cell lines was studied in nude mice. All cell lines were able to develop primary tumors at the subcutaneous inoculation site. The production of plasminogen activators, their inhibitors and urokinase receptor by subcutaneous tumors corresponded with the production by the parental cell lines in vitro. The two u-PA and PAI-1 producing cell lines showed the highest frequency to form spontaneous lung metastases after subcutaneous inoculation, whereas five of the six cell lines formed lung colonies after intravenous inoculation. In conclusion, u-PA mediated matrix degradation in vitro and production of u-PA and PAI-1 by human melanoma cell lines correlated with their ability to form spontaneous lung metastasis in nude mice. No correlation was found with the ability to form lung colonies after intravenous injection. These findings suggest a role for u-PA and PAI-1 in a relatively early stage of melanoma metastasis.
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PMID:Metastatic behavior of human melanoma cell lines in nude mice correlates with urokinase-type plasminogen activator, its type-1 inhibitor, and urokinase-mediated matrix degradation. 191 36

The human T cell-associated serine proteinase-1 (HuTSP-1) is expressed by activated T lymphocytes and is exocytosed upon their interaction with target cells. Here, we report that HuTSP-1 is able to convert single-chain human pro-urokinase into the active two-chain enzyme. Time-dependent activation by HuTSP-1 of recombinant human pro-urokinase as well as natural pro-urokinase derived from human melanoma cells was demonstrated in a chromogenic assay specific for active urokinase type plasminogen activator and in immunoblotting experiments revealing the conversion of single-chain into two-chain urokinase. Control experiments excluded plasmin as the activating agent. These data suggest a novel pathway for plasmin generation during T cell-mediated processes such as immune responses and extravasation of immune cells.
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PMID:Activation of pro-urokinase by the human T cell-associated serine proteinase HuTSP-1. 213 93

Tissue-type plasminogen activator (tPA) is a glycosylated serine protease which is an effective thrombolytic agent. Native single-chain tPA (sc-tPA) is converted to two-chain tPA (tc-tPA) by plasmin, the product of the reaction of plasminogen with tPA. Native sc-tPA occurs as two glycoforms. Type I sc-tPA is fully glycosylated, while type II lacks glycosylation at Asn-184. The rates at which type I and type II human melanoma sc-tPA were converted to type I and type II tc-tPA by plasmin were determined by two different methods. In each case, the second-order rate constant (kcat/Km) for type II sc-tPA (approximately 8 microM-1 s-1) was about twice that for type I sc-tPA (approximately 4 microM-1 s-1). These results indicate that glycosylation at Asn-184 hinders the conversion of sc-tPA to tc-tPA and suggest that under physiological conditions type I sc-tPA may persist in the single-chain form longer than type II sc-tPA. Previous studies have shown that type I tc-tPA has a lower activity than type II tc-tPA and that sc-tPA has a lower activity and susceptibility to inhibition when compared to tc-tPA. The present work provides further evidence that tPA glycosylation serves to modulate activity. The two major glycoforms may represent more persistent but slow acting (type I) and less persistent but faster acting (type II) variants of tPA.
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PMID:Glycosylation at Asn-184 inhibits the conversion of single-chain to two-chain tissue-type plasminogen activator by plasmin. 214 93


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