Lack of correlation between fibrinolysis and the transformed state of cultured mammalian cells

Transformed cells in culture have been reported by others to exhibit high levels of extracellular proteolytic (fibrinolytic) activity due to plasminogen activation, compared to low levels from nontransformed cells. Enhanced fibrinolysis was accordingly proposed to be a reliable and general enzymatic change associated with cell transformation.In the present study, ten different types of serially cultured, growing cells were examined for their extracellular fibrinolytic activity. The level of the fibrinolytic activity was found not to correlate with the transformed or nontransformed state of these cells.     

Stimulation of radiation-impaired plasminogen activator release by phorbol ester in aortic endothelial cells

Ionizing radiation has been reported to affect the fibrinolytic activity of exposed tissue. With cultured bovine aortic endothelial cells, radiation suppresses the release of plasminogen activator to the conditioned media, with a concomitant increase in intracellular plasminogen activator. Thus study was undertaken to determine whether radiation-impaired plasminogen activator release can be modified by phorbol ester. We exposed cultured bovine aortic endothelial cells to a sterilizing dose of 10 Gy of gamma-rays and found the treatment led to cell injury, as evidenced by an increased release of prelabeled chromium, and to a reduction of plasminogen activator in the conditioned media with elevated intracellular plasminogen activator in irradiated cells. Phorbol ester enhanced plasminogen activator activity in both sham-irradiated and irradiated endothelial cells. It was interesting to note that the increased plasminogen activator in phorbol ester-stimulated sham-irradiated cells was largely retained inside the cell, while it was released to the conditioned media in irradiated cells. Apparently, altered plasminogen activator activity of radiation-sterilized endothelial cells can be modified by exogenous stimuli.     

Decreased fibrinolytic activity in porcine-to-primate cardiac xenotransplantation.

BACKGROUND: One major barrier to successful xenotransplantation is acute vascular rejection, a process pathologically characterized by microvascular thrombosis and diffuse fibrin deposition in transplant blood vessels. This pathologic picture may result from a disturbance in the coagulant or fibrinolytic pathways that regulate normal vascular patency. This study evaluated the regulation of fibrinolytic activity defined by tissue plasminogen activator and plasminogen activator inhibitor-1 as it may exist in the setting of acute vascular rejection. MATERIALS AND METHODS, RESULTS: Serial biopsies from cardiac xenotransplants evaluated by immunofluorescence microscopy demonstrated progressive decreases in tissue plasminogen activator and increases in plasminogen activator inhibitor-1. In vitro studies measuring fibrinolytic activity of cell culture medium from porcine aortic endothelial cells stimulated with human serum or autologous porcine serum revealed that human serum triggered as much as 93% increase in antifibrinolytic activity. CONCLUSIONS: These findings demonstrate that porcine vascular endothelial cells change toward an antifibrinolytic state following stimulation with human xenoreactive antibodies and complement. The shift is at least partly explained by an increased ratio of plasminogen activator inhibitor-1 to tissue plasminogen activator, and is at least in part mediated by the activation of complement. This increased antifibrinolytic activity may contribute to the thrombotic diathesis seen in acute vascular rejection in pig-to-primate xenografts.     

Ovarian plasminogen activator: relationship to ovulation and hormonal regulation.

A technique is described for detecting fibrinolytic activity of single cells in culture. This method was applied to the analysis of rat ovarian granulosa cells. Cells obtained from follicules shortly before ovulation show high levels of fibrinolytic activity. This activity is plasminogen-dependent, indicating that it is due to plasminogen activator. The appearance of this activity is correlated with ovulation by temporal and functional criteria, and can be demonstrated both in immature animals primed with hormones and in mature cycling animals. Granulosa cell cultures can be stimulated to release plasminogen activator by exposure in vitro either to luteinizing hormone or to dibutyryl cyclic AMP.     

Endotoxin induction of an inhibitor of plasminogen activator in bovine pulmonary artery endothelial cells

We have examined the effects of bacterial lipopolysaccharide (endotoxin) on the fibrinolytic activity of bovine pulmonary artery endothelial cells. Endotoxin suppressed the net fibrinolytic activity of cell extracts and conditioned media in a dose-dependent manner (threshold dose, 0.1 ng/ml; maximal dose, 10-100 ng/ml). The effects of endotoxin required at least 6 h for expression. Cell extracts and conditioned media contained a 44-kDa urokinase-like plasminogen activator. Media also contained multiple plasminogen activators with molecular masses of 65-75 and 80-100 kDa. Plasminogen activators in extracts and media were unchanged by treatment of cells with endotoxin. Diisopropyl fluorophosphate (DFP) abolished fibrinolytic activity of extracts and conditioned media. DFP-treated samples from endotoxin-treated but not untreated cells inhibited urokinase and tissue plasminogen activator, but not plasmin. Inhibitory activity was lost by incubation at pH 3 or heating to 56 degrees C for 10 min. These treatments did not affect inhibitory activity of fetal bovine serum. Incubation of 125I-urokinase with DFP-treated medium from endotoxin-treated cells produced an inactive complex with an apparent molecular mass of 80-85 kDa. The complex could be detected by chromatography on Sephadex G-100, but not by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. These findings suggest that low doses of endotoxin suppress fibrinolytic activity in endothelial cells by stimulating the production or expression of a fast-acting, relatively labile inhibitor of plasminogen activator.     

Effect of physical exercise on fibrinolytic properties of erythrocytes

The fibrinolytic properties of blood and erythrocytes were studied before and after physical exercise in male volunteers. Their fibrinolytic responses were of two distinct types. In type 1 response, fibrinolytic activities of blood and erythrocytes increased; the plasminogen activator and active plasmin contents in erythrocytes also increased, whereas the profibrinolysin content correspondingly decreased. In addition, physical exercise increased the erythrocyte adsorption properties for plasma activators of fibrinolysis. Type 2 response was characterized by a decrease in the fibrinolytic activity of blood; neither fibrinolytic activity nor adsorption properties of erythrocytes increased. The type of blood and erythrocyte response to muscular activity was determined by the pre-exercise level of red blood cell fibrinolytic activity. It was low in type 1 response due to a lesser content of plasmin activators and greater content of antiplasmin. In type 2 response, the initially high lytic capacity is connected with a greater reserve of activators and lesser reserve of inhibitors of the fibrinolytic system. A conclusion was made that individual differences in fibrinolytic responses to physical exercise were largely accounted for by the properties of erythrocytes.     

Gangliosides interact directly with plasminogen and urokinase and may mediate binding of these fibrinolytic components to cells

Receptors for the fibrinolytic molecules plasminogen and urokinase are expressed at high capacity on a wide variety of peripheral blood cells and transformed cell lines. We have considered whether gangliosides, components of the outer leaflets of cell membranes, may modulate the interactions of these fibrinolytic ligands with cells. Radiolabeled plasminogen and urokinase bound directly to insolubilized gangliosides. The interactions were saturable and were 50% inhibited by 2.2 microM unlabeled plasminogen or 12 nM unlabeled urokinase, respectively. A panel of gangliosides inhibited binding of both ligands to U937 monocytoid cells, and the order of decreasing inhibitory effectiveness was GD1a greater than GM1 greater than GT1b greater than GM2, while GM3 was minimally effective. The individual components of gangliosides, hexoses, hexosamines, sialic acid, GM1 pentasaccharide, ceramides, and glucocerebrosides were ineffective in in inhibiting the binding of plasminogen and urokinase either to cells or to insolubilized gangliosides. Binding of both ligands to endothelial cells and granulocytes and binding of plasminogen to platelets were also inhibited by gangliosides. U937 cells were cultured with gangliosides to allow incorporation of these glycolipids into the cell membranes. After 3 days of culture, both urokinase binding and plasminogen binding to the cells became enhanced. These results suggest that gangliosides can directly bind to these fibrinolytic components and may mediate or modulate the interactions of plasminogen and urokinase with a variety of cell types.     

Production of plasminogen activator by established cell lines of mouse origin

The correlation between malignant transformation and increased plasminogen activator synthesis has been studied in a variety of established cell lines. In contrast to the behavior of secondary mouse embryo cultures, which always show increased fibrinolytic activity when transformed, no such correlation was found within the BALB/c 3T3 line and its transformed derivatives. Cell lines were established from tumors initiated in BALB/c mice by several transformed cell lines. These lines were generally found to contain no more plasminogen activator than the cells used for inoculation. A correlation was found between transformation and plasminogen activator synthesis within Swiss 3T3 cell lines. However, the correlation was not maintained by serum revertants of transformed Swiss 3T3 cells.     

Fibrinolytic system of cultured endothelial cells: regulation by plasminogen activator inhibitor

Cultured bovine aortic endothelial cells have a relatively complex fibrinolytic system that is responsive to both the physiological state of the cell itself and to a variety of agents added to the culture medium. The fibrinolytic activity of these cells results from the production of both urokinase-type and tissue-type plasminogen activators and is regulated by an inhibitor capable of neutralizing their activities. The properties of these fibrinolytic components will be reviewed, and their respective roles in initiating and regulating the fibrinolytic activity of the cells will be summarized. A cDNA coding for the inhibitor has been isolated, and its sequence will be compared to that of other serine proteinase inhibitors.     

Fibrinolytic activity associated with established lymphoblastoid cell lines and fresh peripheral blood lymphocytes of human and nonhuman primate origin.

Established lymphoblastoid cell lines and normal peripheral blood lymphocytes were examined for their ability to induce fibrinolysis, a property associated with oncogenic transformation, using a 3H-fibrin plate technique. Fibrinolytic activity showed serum preferences with dog serum being most active. Most cell lines (14/18) induced greater than 40% release, while normal lymphocytes were generally less active. Only one cell line tested released plasminogen activator into the medium. No correlation was shown between fibrinolytic activity and growth in soft agar. Normal rhesus lymphocytes showed fibrinolytic activity in B cell-enriched populations with no evidence of interaction between B cells and T cells.     

Development of research into the physiology and pathophysiology of the fibrinolysis system

A modern data review on the importance of fibrinolysis system is given. A considerable success has been scored during the study of molecular parameters of fibrinolysis system: the plasminogen, plasmin, its inhibitors, plasminogen activators and the mechanism of activation system have been characterized. The entrance of A, K, C, P and PP vitamins has been established to be necessary for the normal functioning of the fibrinolysis system; the dependence of the blood fibrinolytic activity upon the initial plasminogen content and concentration of its activators in blood has been revealed. The plasminogen activator depletion in tissues has been shown to be one of the reasons of some pathological states development, especially at cardiovascular diseases. The increase of fibrinolysis level by the active fibrinolytic ferment injection in blood has a medical effect at thrombosis. The ferment fibrinolysin received in the laboratory is successfully used in clinical practice. Some other activators of fibrinolytic system: tricholysine and longolytin from the culture of saprophyte fungi, plasminogen activator from the pig heart and the cells culture of the calf kidney have been received and are being studied.     

华广虻溶纤活性蛋白(TAFP)的性质和对大鼠血液流变学的影响

华广虻溶纤活性蛋白 (TAFP)经血纤蛋白平板法和试管凝块法测定表明 ,TAFP只具有纤溶酶作用 ,不具有激活纤溶酶原的作用 .TAFP的最适 p H为 7.5,且在 p H为 6.0时最稳定 .蛋白水解酶抑制剂对 TAFP的抑制作用显示 :STI>antipain>SBBI>antitrypsin>TLCK>leupeptin>bacteracin>PMSF>TPCK,金属蛋白酶抑制剂 1 ,1 0 - phenanthroline对 TAFP没有抑制作用 .TAFP能显著的延长大鼠出血时间、抑制血小板聚集性 ;显著降低血浆中血纤蛋白原含量、全血粘度、血浆粘度、红细胞压积 ;减慢血沉速度     

Urokinase-type and tissue-type plasminogen activators are essential for in vitro invasion of human melanoma cells

This study evaluates the contribution of two types of plasminogen activators (PAs; tissue-type PA (tPA) versus urokinase-type PA (uPA) toward the invasiveness of human melanoma cells in a novel in vitro assay. We identified two human melanoma cell lines, MelJuso and MeWo, expressing uPA or tPA as shown at mRNA, protein, and enzyme activity level. MelJuso cells produced uPA as well as plasminogen activator inhibitor-1 (PAI-1). The latter was, however, not sufficient to neutralize the cell-associated or secreted uPA activity. MeWo cells secreted tPA, but the enzyme was not found to be cell-associated. PAI-1 production by these cells was not detectable. Plasminogen activation and fibrinolytic capacity of both cell lines were reduced by anticatalytic monoclonal antibodies specific for the respective type of PA or by aprotinin. In a novel in vitro invasion assay, antibodies to PA as well as aprotinin decreased the invasiveness of both cell lines into a fibrin gel, Matrigel, or intact extracellular matrix. Our results confirm the importance of uPA-catalyzed plasminogen activation in tumor cell invasiveness. Furthermore, we provide evidence that tPA, beyond its key role in thrombolysis, can also be involved in in vitro invasion of human melanoma cells.     

In vitro decreases of the fibrinolytic potential of cultured human fibrosarcoma cell line, HT1080, by Nigella sativa oil

It is generally accepted that the fibrinolytic potential of tumor cells is related to their malignant phenotype. In the present study, Nigella sativa oil (NSO) was studied to evaluate its effect on the fibrinolytic potential of the fibosarcoma cell line HT1080 to elucidate whether this oil might have an antitumor activity through its modulation of the fibrinolytic potential of such cells. NSO produced a concentration-dependent inhibition of tissue-type plasminogen activator (t-PA), urokinase-type plasminogen activator (u-PA) and plasminogen activator inhibitor type 1 (PAI-1). When subconfluent HT1080 cells were conditioned with oil, a concentration (0.0-200 microg oil/ml)-dependent decrease in t-PA, u-PA and PAI-1 antigen was observed. There was also a concentration-dependent decrease (from 0.0 to 112.5 microg oil/ml) in the confluent cultures. The results showed that blackseed oil decreases the fibrinolytic potential of the human fibrosarcoma cell line (HT1080) in vitro, implying that inhibition of local tumor invasion and metastasis may be one such mechanism.     

Erythrocyte Aggregation in Athletes

Erythrocyte aggregation (examined microscopically in diluted blood), lipid and protein plasma profiles, and fibrinolytic activity were studied in endurance athletes. Division of the athletes into two subgroups by cluster analysis showed that a higher level of fitness was associated with a lower plasminogen activity; enhanced fibrinolysis; increased blood fluidity; lower fibrinogen, cholesterol, and triglyceride levels; a relatively low erythrocyte aggregation index; and high suspension stability of the blood. Fibrinogen was the key plasma factor determining erythrocyte aggregation. Its level was closely correlated with plasminogen activity. Discriminant analysis showed that most differences between groups of athletes were connected with plasminogen activity, the von Willebrand factor, and fibrinolytic activity.     

Anchorage independent growth and plasminogen activator production by bovine endothelial cells

Endothelial cells obtained from the aortae of 1- to 2-d-old calves were cloned at high efficiency using fibrin-coated dishes. Primary cultures as well as clones derived from them produced high fibrinolytic activity when grown on 125I-fibrin-coated dishes which was 90% dependent upon the presence of plasminogen. High plasminogen-dependent proteolytic activity was also demonstrated in endothelial cell lysates and in the culture medium of the cells. The production and secretion of the plasminogen activator(s) were found to increase during the log phase of cell growth and to reach a maximum level at confluence. These endothelial cells exhibited morphological phenotypes comparable to those of transformed cells when grown in the presence of acid-treated fetal calf, dog, or human serum. Furthermore, they demonstrated anchorage independent growth, and large colonies were formed in semisolid media. Spontaneous neoplastic transformation of these cells was excluded by karyotypic analysis, lack of tumorigenicity in athymic nude mice, and limited lifespan in culture. Cell clones isolated from colonies grown in agarose demonstrated the same growth characteristics and proteolytic activity as before plating in agarose. High fibrinolytic activity, morphological changes in the appropriate serum, and growth in semisolid media may therefore be indicative of the migratory and/or invasive capacity of both nontransformed endothelial cells as well as tumor cells.     

Dexamethasone inhibition and phorbol myristate acetate stimulation of plasminogen activator in human embryonic lung cells

Treatment of human embryonic lung cells with dexamethasone resulted in a decrease in plasminogen activator activity measured in the fibrinolytic assay. The decrease in activity could at least partially be explained by the presence of an inhibitory substance(s) based on the following observations of lysates of dexamethasone-treated vs. control cells: a) an increase in specific activity following subcellular fractionation; b) an increase in fibrinolytic activity following separation by gel electrophoresis; c) an increase in fibrinolytic activity following mild acid-treatment; and d) a decrease in urokinase-directed fibrinolytic activity in mixing experiments. Phorbol myristate acetate increased plasminogen activator activity without affecting the level of inhibitory substance.     

Cell density-dependent secretion of plasminogen activator by 3T3 cells.

The expression of extracellular fibrinolytic activity in untransformed 3T3 cell cultures depends on the growth state of the cells. Actively growing 3T3 cultures exhibit a relatively high level of fibrinolysis, which decreases progressively as the cells become confluent and density-inhibited. The low level of fibrinolytic activity in confluent 3T3 cultures is due to a diminution in secretion of plasminogen activator since the intracellular level of plasminogen activator remains high. The amount of plasminogen activator observed in growing 3T3 cultures varies depending upon whether the cells are passaged with trypsin/EDTA solution, or with Ca++ selective chelating agent, ethylene-bis (oxyethylenenitrilo) tetraacetic acid (EGTA). However, in cells passaged using either agent, the amount of plasminogen activator secreted is always greatest when the cells are actively growing and decreases thereafter. In contrast to confluent 3T3 cultures, dense cultures of SV40-virus transformed 3T3 cells continued to secrete relatively large amounts of plasminogen activator. The ability to decrease secretion of plasminogen activator as cells become dense may be an important characteristic of cells which demonstrate density-dependent inhibition of cell multiplication in vitro.     

Growth factor-dependent proliferation and invasion of muscle satellite cells require the cell-associated fibrinolytic system

The process of muscle regeneration in normal and dystrophic muscle depends on locally produced cytokines and growth factors and requires the activity of the urokinase plasminogen activator/urokinase plasminogen activator receptor/plasminogen activator inhibitor-1 system. In this study we tested the effect of basic fibroblast growth factor (bFGF), hepatocyte growth factor (HGF) and transforming growth factor-beta (TGFbeta) on the fibrinolytic pattern of normal and dystrophic satellite cells, their mitogenic and motogenic activities and the dependence of such activities on the cell-associated fibrinolytic system. We have observed that the urokinase plasminogen activator (u-PA) receptor is weakly upregulated by bFGF in normal satellite cells, while it is strongly up-regulated by TGFbeta, mainly in dystrophic myoblasts. bFGF up-regulated u-PA in both normal and dystrophic myoblasts grown in primary culture, while a striking down-regulation was observed with TGFbeta. TGFbeta was the only growth factor able to exceptionally up-regulate plasminogen activator inhibitor-1 (PAI-1), mainly in dystrophic satellite cells. HGF did not show any activity on the fibrinolytic system. Proliferation and invasion into Matrigel matrices of normal and dystrophic cells occurred regardless of the growth factor-dependent regulation of the fibrinolytic system. Nevertheless, each growth factor required the efficiency of the constitutive cell-associated fibrinolytic system to operate, as shown by impairment of growth factor activity with antagonists of u-PA and of its receptor. Noteworthy, TGFbeta induced a dose-dependent increase of Matrigel invasion only in dystrophic myoblasts. Since TGFbeta-challenged dystrophic myoblasts undergo an exceptional up-regulation of the receptor and of PAI-1, we propose the possibility that the TGFbeta-induced fibrinolytic pattern (low urokinase plasminogen activator, high receptor and high PAI-1) may be exploited to promote survival and spreading of transplanted engineered myoblasts in Duchenne muscular dystrophy.     

Lipopolysaccharide-induced modulation of human monocyte urokinase production and activity

Cells of the monocyte/macrophage lineage are known to produce urokinase type plasminogen activator (u-PA) and are active participants in the inflammatory response. Modulation of cellular u-PA production, for instance in response to LPS, may have an important impact on the evolution of inflammatory lesions. A definitive picture of how monocyte u-PA production and activity are regulated by LPS is lacking. We addressed this issue directly by measuring u-PA Ag and activity in mononuclear cell cultures. By using a competition ELISA to quantitate u-PA Ag, we found that LPS-stimulated mononuclear cells in culture increased u-PA production in a dose-dependent manner and that all the u-PA detected was attributable to the monocytes therein. Increasing amounts of u-PA were secreted into the medium, bound to the cell surface, and found intracellularly. Although the absolute amounts of u-PA varied from donor to donor, the increases seen with LPS stimulation were a consistent and statistically significant finding. Only the cell-surface-bound u-PA was fibrinolytically active, however, with this activity increasing upon LPS stimulation. All monocyte cell-surface-associated fibrinolytic activity was attributed to u-PA, as shown by plasminogen dependence, neutralization by antibodies to u-PA, and identification of fibrinolytically active molecules eluted from the cell surface. The surface bound u-PA was not inhibited by its physiologic inhibitors, PAI-1 or PAI-2, whereas free u-PA was. Hence LPS stimulation results in monocytes exhibiting increased cell-surface-associated u-PA Ag and fibrinolytic activity, in spite of concomitant high levels of plasminogen activator inhibitor type 2 production. This surface-bound enzymatic activity may influence the ability of monocytes to migrate in and interact with an inflammatory microenvironment.