UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied plasmin receptors on 3 MCF-7 sublines: MCF7, MCF7R which was derived by transfection with v-Ha-ras oncogene, and MCF7MF which has been studied for the secretion of procathepsin D in the presence of estrogen. All 3 sublines bound plasmin (Pli) with a much higher affinity than plasminogen (Pg). The number of binding sites was increased about 4-fold by weak proteolytic pretreatment of tumor cells. Transfection by v-Ha-ras oncogene did not apparently change the affinity of Pli binding sites (KD 27-26 nM) and increased their number very slightly (3,800 against 3,200 fmoles/mg protein). However, this number was 5 times higher for MCF7MF (15,000 fmoles/mg protein) and the affinity was 4 times lower (106 nM). MCF7 and MCF7R sublines have previously been reported to be non-invasive in the in vitro invasion assay system (embryo chick heart muscle) but tumorigenic and metastatic in nude mice. In contrast, the MCF7MF subline has been shown to be invasive in both in vivo and in vitro invasion systems. Thus, the number of Pli binding sites at the MCF7 tumor-cell surface may be associated directly or indirectly with tumor-cell invasiveness.
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PMID:The presence of plasmin receptors on three mammary carcinoma MCF-7 sublines. 217 Feb 80

Plasminogen activators (PAs) are specific proteolytic enzymes which convert the inactive proenzyme plasminogen to plasmin. The plasmin formed is a potent and nonspecific protease which cleaves blood fibrin clots and several other extracellular proteins. In addition to their primary role in the initiation of fibrinolysis, PAs are implicated in a variety of basic biological processes, such as, degradation of the extracellular matrix, tumor invasiveness, tissue remodelling, and cellular differentiation. This review describes recent observations on the biochemical and biophysical characteristics of the different components of the plasminogen activation system. This complex system includes: the proenzymes of tissue type PA (tPA) and urokinase type PA (uPA); the active enzymes tPA, uPA and plasmin; the substrate plasminogen; several natural inhibitors of PA and plasmin activity; and the cellular receptors that bind the proenzymes, enzymes, and inhibitor-enzyme complexes. Through the coordinated interactions of these components, the location, timing, and extent of potent proteolytic activity is controlled. Recent findings on the structure, properties, biological functions, and regulation of the different components of the plasminogen activation cascade are reviewed. Current methods for assay of the amount and activity of the enzymes, inhibitors, and receptors are described. Observations implying specific functions of the system in health and disease, and its potential utilization for diagnosis are examined. Specifically, the potential application of PAs as laboratory markers of neoplasia, as diagnostic tools in diseases of the blood clotting system, their use for monitoring of thrombolytic therapy, and their possible relevance in certain disease states are described.
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PMID:Biochemical and biological aspects of the plasminogen activation system. 219 30

Degradation of basement membranes is a common feature in the vicinity of carcinomas. It is likely explained by the action of various proteinases, some being produced by tumor cells themselves and some originating in the surrounding tissues. The proteinases which are involved in this lytic process are numerous. Among them one has to stress first plasminogen activators and plasmin and on the other side collagenases. Actually these enzymes seem to have a coordinate action, so as to be described as a proteolytic cascade. Another important factor lies in the existence of proteinases inhibitors. If the balance between proteinases and their inhibitors is altered, basement membranes can be degraded, allowing tumor cells to pass through them, as shown by in vitro experiments.
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PMID:[Proteases and tumor invasion]. 229 Jun 94

The human melanoma cell lines M21 and MSM-M2 are shown to produce two similar competitive inhibitors of trypsin, a serine proteinase. These proteinase inhibitors inhibited the serine proteinases trypsin and kallikrein with similar efficiency but did not inhibit plasmin (a serine proteinase) or papain (a thiol proteinase). Active synthesis of the inhibitors during cell culture was indicated by the requirement for cell viability, the increase in inhibitory activity of the supernatant with time, and the incorporation of 35S-methionine into the inhibitors. The two inhibitors were stable to heat (70 degrees C) and extremes of pH. Their molecular weights were estimated at 670 and 250 kD, respectively. A screening of the supernatants of five other human melanoma cell lines by HPLC showed that they all released a similar trypsin inhibitory factor not detected in human or bovine serum. The isolation of these proteinase inhibitors facilitates a study of their putative role in tumor growth.
Tumour Biol 1990
PMID:Serine proteinase inhibitors produced by human melanoma cell lines. 230 65

Expression of plasminogen activator (PA) enzyme activity is believed to be one of the mechanisms by which malignant cells cause pericellular proteolysis of stromal structures during implantation and tissue invasion. In this study, four cell lines derived from human gliomas were studied to ascertain which PA enzymes and PA inhibitors determine the level of secreted PA activity. A plasminogen-dependent esterolytic assay was used, and two lines (U251 and U373) were found to secrete high levels of PA activity, while PA activity was undetectable in the conditioned media from the remaining two lines (U138 and LM). The PA produced by U251 and U373 resolved as single bands comigrating with high molecular weight urokinase (Mr 54,000) on casein-plasminogen zymography. Northern blot analysis demonstrated high levels of mRNA for urokinase-type PA (uPA) in U251 and U373, as well as a considerably lower level of uPA message in LM. U251 and U373 also contained mRNA for tissue-type PA (tPA), although secreted tPA activity was not demonstrated by zymography. The U138 line contained essentially undetectable levels of mRNA for either uPA or tPA. U138 was also unique in secreting PA inhibitor activity and contained high levels of mRNA for PA inhibitor 2, which was not seen in any other line. All cell lines contained PA inhibitor 1 mRNA, with substantially more expression in the U138 and LM lines than in U251 and U373. None of the lines secreted measureable anti-plasmin activity. We conclude that there is considerable heterogeneity among human glioma cells in expression of PA enzymes and PA inhibitors. The coordinated regulation of these proteins likely determines secreted PA activity and the resultant role of plasminogen activation in tumor implantation and invasion.
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PMID:Expression of heterogeneous profiles of plasminogen activators and plasminogen activator inhibitors by human glioma lines. 237 61

Fibrinolytic activity in the blood of rats during the development of Guerin epithelioma was studied. It was measured by means of radiometric method, based on the amount of plasmin degradation products released from 125I-fibrin, as well as by means of amidolytic technique with the use of Chromozym PL. During the initial phase of epithelioma development the fibrinolytic activity of plasma, determined after inactivating plasma proteinase inhibitors, increases. It also increases in the euglobulin fraction. Simultaneously, the content of fibrin(ogen) degradation products (FDP) increases in the blood. During the stage of the intensive development of neoplastic disease fibrinolytic activity as well as plasminogen activator activity become inhibited, whereas the concentration of FDP retains the level observed in healthy animals. Inhibition of fibrinolytic activity in the later phase of the disease coincides with the appearance of low-molecular weight antifibrinolytic factor in the blood of rats loaded with epithelioma.
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PMID:Fibrinolytic activity of rat plasma during development of Guerin epithelioma. 239 83

The effects of protease inhibitors(PI), t-AMCHA, gabexate, aprotinin and heparin on the growth of mouse MM2 ascites tumor (MAT) and on several components of fibrinolysis were studied. The drugs were administered intraperitoneally one time daily for 12 days, one day after the tumor transplant. The volumes of ascites, total packed cell volume (TPCV) and fibrinolytic parameters (FDP, whole plasmin, plasminogen activator (PA)) were measured on the 8, 10 and 12th days of therapy. Fibrinolytic activity was assayed by the lysin sepharose affinity chromatography-radio caseinolytic method. Fibrinolytic activity in the ascites increased during the tumor growth. The ascites accumulation as well as levels of FDP, whole plasmin and PA in the drug treated group were significantly decreased when compared to the control group. In these drug-treated groups, MAT cells agglutinated in the abdominal cavity, but in contrast to this, no agglutination was observed in the control group. It was uncertain whether PI directly inhibited tumor growth. The fact that PI inhibited the ascites accumulation and also decreased fibrinolytic activity suggest the involvement of protease in the neoplastic process and indicates another therapeutic approach to malignant ascites tumors.
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PMID:[Studies on fibrinolysis and ascites accumulation associated with peritonitis carcinomatosa--effects of protease inhibitors (PI) on MM2 ascites tumor growth, ascites accumulation and fibrinolysis]. 242 22

The presence and localization of the plasmin system components urokinase (UPA), tissue type plasminogen activator (TPA), plasminogen (PG), a neoantigen expressed by the plasmin-alpha 2-antiplasmin complex, and plasmin inhibitors alpha 2-antiplasmin (AP) and alpha 2-macroglobulin (MG) have been tested by immunofluorescence on sections of 11 benign and 40 malignant lesions of the breast in an attempt to apply a morphological approach to the problem of tumor invasion in vivo. In benign lesions, TPA was seen in secretions of mammary glands and MG was seen in edematous zones. In one involuting lactating adenoma, UPA, TPA, PG, PAP, and AP were associated with glandular cells. UPA was detected in 11 carcinomas, TPA in 22, PG in 31, PAP in 12, AP in 23, and MG in all 40. All these components were essentially present in invasive territories, with a cellular labeling for UPA and TPA and a fluorescent staining frequently at the periphery of tumoral foci for PG and PAP. AP was more closely associated with cancer cells than MG, which was present in the stroma. Intraductal proliferations were rarely positive and there was no correlation between the localization of PG and the distribution of a basement membrane glycoprotein laminin. These data argue strongly for the involvement of the plasmin system in the infiltrating process of the stroma. This system seems to play a limited role in the breakdown of basement membrane in breast carcinomas in vivo.
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PMID:Detection of the plasmin system in human mammary pathology using immunofluorescence. 242 83

Components of the plasmin system were comparatively studied in lymph node metastases and corresponding primary tumors by immunofluorescence. Primary tumors, all adenocarcinomas, originated from large bowel (N = 12) or breast (N = 10). We used antisera against plasminogen (Pg), plasminogen activators (PA) such as urokinase (UK) and tissue type PA (t-PA), plasmin inhibitors such as alpha 2 anti-plasmin (alpha 2AP) and alpha 2 macroglobulin (alpha 2M), plasmin-alpha 2 anti-plasmin complex (PAPC). Positivity with anti-PAPC serum was considered as proving that plasmin was formed by Pg activation. The following results were obtained. Breast adenocarcinomas were more strongly stained than colorectal adenocarcinomas using antisera against Pg, PAPC and PA, while their reactivity was much weaker with antisera against both plasmin inhibitors. Lymph node metastases from colorectal adenocarcinomas were more strongly stained than primary tumors using antisera against PAPC and PA. Reactivity with anti-Pg was similar, while that with antisera against plasmin inhibitors was much weaker. Metastasis from breast adenocarcinomas, on the average, showed the same type of staining as primary tumors. However, there was a slight decrease in reactivity with anti-Pg and PAPC in metastases. Tumor cells invading lymphoid areas in metastatic lymph nodes were often strongly labeled using antisera against Pg and UK. Staining was less strong or less frequent using antisera against PAPC and t-PA. These results favor the role of plasmin in the degradation of basement membrane and connective tissue components, thus implicating it in the invasiveness of tumor cells, at least in most primary tumors and metastases.
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PMID:The plasmin system in human adenocarcinomas and their metastases. A comparative immunofluorescence study. 243 33

We have previously shown that the tumor promoter 4 beta-phorbol 12-myristate 13-acetate (PMA) induces capillary endothelial cells grown to confluency on the surface of three-dimensional collagen gels to invade the underlying matrix and to form capillary-like tubular structures, a phenomenon mimicking angiogenic processes that occur in vivo (Montesano and Orci: Cell, 42:469-477, 1985). Since angiogenesis frequently occurs within a fibrin-rich extracellular matrix, we have examined the ability of PMA-treated endothelial cells to invade fibrin gels. Control endothelial cells grown on fibrin gels formed a confluent monolayer on the gel surface and did not invade the underlying matrix. Treatment of the cultures with PMA resulted in a progressive lysis of the substrate without invasion of the fibrin matrix. However, if the cells were treated with PMA either in the presence of fibrinolytic inhibitors (Trasylol, epsilon-aminocaproic acid) or in the absence of detectable plasminogen, dissolution of the substrate was prevented, and the endothelial cells invaded the fibrin gel, forming vessel-like tubular structures similar to those previously observed with collagen gels. These results demonstrate that the invasive and morphogenetic events induced by PMA do not necessarily require an interaction between endothelial cells and collagen fibrils but can also occur with other biologically relevant substrata. They also suggest (1) that invasion may occur via a plasmin-independent mechanism and (2) that in vivo, neutralization of excess proteolytic activity may play an important permissive role in angiogenesis and other invasive processes by preventing uncontrolled matrix degradation.
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PMID:Phorbol ester induces cultured endothelial cells to invade a fibrin matrix in the presence of fibrinolytic inhibitors. 244 14

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