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: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The capacity of solid tumours to invade the surrounding tissue and to metastasize, is correlated with the formation and degradation of structural elements in the vicinity of the tumour cells. Substances with both procoagulant activity and fibrinolytic activity are important factors in the formation or degradation of a "fibrin-fibronectin-gel matrix". This gel is subsequently transformed into the extracellular matrix, which, together with cells, will form the tumour stroma. When analyzing tumour stroma degradation products, it is obvious that the protease plasmin catalyses the disintegration of fibrin and fibronectin. Additional compounds of the tumour stroma and of the basal membrane are also, at least in part, broken down by plasmin or other proteases, such as collagenase IV and cathepsin D. The plasminogen activator urokinase (uPA) seems to play a central role as it was shown that elevated content of uPA is correlated with a high risk of early relapse and shorter overall survival, at least in breast cancer. It has been shown, that by means of quantifying uPA, patients with a relative high or low risk can even be selected within the classical risk groups, which so far are defined by the locoregional extension of the tumour and the hormone receptor status only. Evidently, as uPA content in human breast cancer tissue is an independent prognostic factor, one may speculate, that those experimental or in vitro data, which correlated increase in uPA-synthesis with malignancy, may be of direct relevance for human tumour biology. Moreover, due to these recent observations on the prognostic significance of tumour-associated proteases, new aspects for the selection of risk collectives within the node-negative breast cancer patients for adjuvant therapy have to be considered. It may well be possible, that one may affect tumour invasion and metastasis by inhibiting protease action of solid tumours by disturbing the binding of proteases to tumour cell surface receptors. As it is only a quantitative aspect, which separates benign physiological processes from tumour cell pathophysiology, experimental evidence suggests, that less drastic forms of palliative therapy can be proposed.
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PMID:[Clinical and prognostic significance of tumor-associated proteases in gynecologic oncology]. 204 Apr 18

The characteristics and secretion of plasminogen activator (PA) were examined in fresh and cultured bovine parathyroid cells. Release of PA activity was maximal at low Ca concentrations ([Ca]) and suppressed at physiological [Ca]. PA secretion at high [Ca], like that of PTH, was increased by treatment of cells with chloroquine and/or 3-methyladenine. Secretion from organoids was not affected by hydrocortisone hemisuccinate, but was strongly increased by 1,25-dihydroxyvitamin D3. In cell homogenates, PA specific activity was highest in microsomes, from which less than 50% could be solubilized by Triton X-100. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of microsomes and media followed by zymography on fibrin-agarose gels showed that PA from both sources had an apparent mol wt of 44,000. No inhibitors of PA were detected by reverse zymography. PA activity was inhibited by placental urokinase (uPA) inhibitor and amiloride, which indicated that it was a uPA, but the secreted form required tissue-type PA stimulator (fibrin peptides) or denatured microsomes for full activity. Neither the microsomal nor the secreted forms of PA were active with S-2444, a substrate specific for active uPA. By comparison with the characteristics of human activators, the results suggested that parathyroid cells secrete uPA that is primarily in the precursor form single chain urokinase or scuPA.
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PMID:Secretion of plasminogen activator from bovine parathyroid cells. 210 81

Urokinase type plasminogen activator (u-PA) was purified from three different chest fluids obtained from patients with liver cirrhosis and pleuritis, aplastic anemia and pneumonia, and lung tumor, and the relationship between molecular weight and plasminogen activator (PA) activity was examined by zymography. The molecular weights of u-PAs from the chest fluids were 200 Kd, 150-180 Kd, 95 Kd, 55 Kd, 44 Kd, 33 Kd and 14 Kd, and PA activity was observed at molecular weights of 95 Kd, 55 Kd and 33 Kd. Fibrin binding of u-PA was observed at molecular weights of 55 Kd and 33 Kd.
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PMID:Properties of urokinase type-plasminogen activator found in chest fluid. 210 19

Urokinase and streptokinase are commonly used thrombolytic agents for fibrin obstructed central venous catheters. Although proven to be efficacious, these two agents have the potential to induce systemic fibrin breakdown and hemorrhage. We report our initial experience with tissue plasminogen activator (t-PA) for the treatment of occluded central venous catheters which failed urokinase. Of 25 incidents of catheter occlusion in 142 right atrial catheters, six failed to clear after an initial bolus dwell of urokinase. Five of these six catheters cleared following treatment with 2 mg/2 cc of t-PA with a mean of 1.5 bolus installations. The one catheter failure was due to catheter tip position and age of clot. No coagulation abnormalities or bleeding was observed. These data suggest that t-PA may be a safe, effective thrombolytic agent in the treatment of occluded central venous catheters.
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PMID:Investigational use of tissue plasminogen activator (t-PA) for occluded central venous catheters. 211 48

Plasminogen activator (PA) was located in newborn rat osteoclasts using a single-cell assay. Immunohistochemistry using biotin-streptavidin-peroxidase indicated the presence of both tissue-type plasminogen activator (tPA) and urokinase (uPA) within the cytoplasm of osteoclasts isolated from newborn rat long bones. Electron microscopic immunohistochemistry using the biotin-streptavidin-colloidal gold system on L.R. Gold thin resin sections of undecalcified, newborn rat tibial metaphyseal trabecular bone identified these proteases in the lysosomal network of osteoclasts. uPA was also localized in marrow macrophage lysosomes, but tPA was not detected in these cells. The localization of these enzymes within osteoclasts may imply their involvement in bone resorption.
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PMID:Identification of plasminogen activator in osteoclasts. 211 31

Slow and fast contracting muscles differ in their innervation and electrophysiological properties as well as in their regenerating potentialities. The purpose of the present work was to investigate the expression of plasminogen activators and its possible relation to each type of muscle. Slow (Soleus) and fast (Extensor Digitorum Longus) muscles were obtained from white Wistar rats. Before sectioning the muscles, the euthanized rats were perfused with cold phosphate buffer saline to avoid interference by circulating proteases and inhibitors. Muscle extracts were pounded in an ice-cold Potter tube. Plasminogen activators (PAs) were assayed by fibrin zymography and by both liquid and solid-phase fibrin spectrophotometric assays for the detection of PAs activity. Both urokinase (uPA) and tissue-type plasminogen activator (tPA) activities corresponding to proteins of 38 kDa and 65 kDa molecular masses, were detected in the extracts. Slow muscles contained higher amounts of both activators than fast muscles, but the relative amount of uPA was higher in both types of muscles. In addition, the characteristics of each type of extracts differed somewhat: the fast muscle activity curve was typical of an accelerating process, while the slow muscle curve showed an activity probably related to already formed plasmin or to some other trypsin-like enzyme. These results suggest that the amount of plasminogen activators could be a new criterion of discrimination between slow and fast skeletal muscles.
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PMID:Slow and fast rat skeletal muscles differ in their plasminogen activator activities. 211 33

Urokinase (UK, Mr 55,000) and tissue-type plasminogen activator (tPA, Mr 74,000) are serine proteinases involved in many biological processes, ie, cell migration, neoplastic transformation, and extracellular proteolysis. Cutaneous fibrinolytic activity (dependent on the activity of UK and tPA) was studied with the autohistographic fibrin film method in 40 patients affected by psoriasis vulgaris before and after topical (anthralin, betamethasone valerate, hydrocolloid occlusive dressing) or systemic psoralen-ultraviolet-light (PUVA) treatments. Autohistographic studies also were performed after apposition of monoclonal antibodies directed against the catalytic site of UK and tPA. Finally, UK and tPA were localized immunohistochemically in the psoriatic plaques and in controls using the immunoperoxidase procedure based on the biotin/avidin system. UK and tPA immunoreactivity was present in the cytoplasm and around the outlines of keratinocytes in the psoriatic patches before treatment and in the patches not cleared after treatment, while it was not detectable in normal epidermis, in the unaffected psoriatic epidermis, and in the cleared psoriatic skin. Cutaneous fibrinolytic activity was present in the cases in which UK and tPA were detected histochemically and, in the psoriatic epidermis, it was abolished by preincubation with anti-tPA but not with anti-UK antibodies. This study suggests that established topical and systemic treatments for psoriasis possess UK and tPA antagonist activity.
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PMID:Antipsoriatic therapies inhibit epidermal plasminogen activator activity. 212 55

The correlation between urokinase-type plasminogen activator (uPA) expression and tumor cell invasion and metastasis has been well documented. Urokinase converts the zymogen plasminogen to plasmin, a trypsin-like enzyme with broad substrate specificities. Net uPA activity is determined not only by the amount of the enzyme itself, but also by its state of activation and the amount of specific plasminogen activator inhibitors (PAIs) present. Both uPA and its substrate, plasminogen, can bind to cells via specific membrane-associated receptors. Expression of uPA, uPA receptor (uPAR), and PAIs is regulated by growth factors, oncogenes, and other effector molecules. In the present review we discuss the interactions of uPA with its receptor, inhibitors, and substrate and how these interactions influence malignant behavior. We also review recent reports in which investigators have used anti-catalytic antibodies and/or gene transfection to demonstrate that uPA is directly involved in tumor cell invasion and metastasis.
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PMID:The role of urokinase-type plasminogen activator in aggressive tumor cell behavior. 212 23

It has been reported that EGF treatment enhances uPA but not tPA in the A431 epidermoid carcinoma cell line. To determine whether the absence of tPA modulation by EGF could be due to the action of inhibitors, we assayed tPA, PAI-1, PAI-2 and tPA/PAI-1 complexes by immunological assays and zymography in A431 serum-free medium. We found that, under conditions in which EGF had no effect on tPA activity, tPA antigen increased with a concomitant rise of tPA/PAI-1 complexes, indicating the action of an inhibitor. Both tPA antigen and tPA/PAI-1 complexes were modulated by EGF in a time and concentration dependent manner. tPA/PAI-1 complex levels were lower than tPA levels, suggesting the presence of other inhibitors. Immunological assays detected PAI-2 in addition to PAI-1 and showed a time and dose response to EGF. Modulation of tPA and the anti-activators by the growth factor was confirmed by identification of the corresponding transcripts with cDNA probes. We conclude that the net plasminogen activator activity in A431 cells is the result of a balance between activators and inhibitors.
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PMID:Modulation of tPA, PAI-1 and PAI-2 antigen and mRNA levels by EGF in the A431 cell line. 213 49

Thrombospondin (TSP), an adhesive glycoprotein found in platelets and extracellular matrix, has been shown previously to interact with plasminogen and tissue plasminogen activator, resulting in efficient plasmin generation. We now demonstrate specific complex formation of TSP with both the single-chain and two-chain forms of urokinase (scuPA and uPA). Binding of uPA and scuPA to immobilized TSP was detected and quantified using colorimetric immunoassays and a functional amidolytic assay. Binding was time and concentration dependent with apparent affinity constants of 40-50 nM. Binding was not affected by serine protease inhibitors, EDTA, or epsilon-aminocaproic acid. scUPA and uPA bound to TSP retained functional activity. Using a sensitive amidolytic assay we found that TSP. scuPA complexes were efficiently converted to TSP. uPA by catalytic plasmin concentrations. Additionally, TSP.uPA complexes were found to have plasminogen-activating activity equivalent to fluid-phase uPA and to be protected from inhibition by plasminogen activator inhibitor type 1, the major plasma and matrix plasminogen activator inhibitor. Using immunohistochemical techniques, we also demonstrated co-distribution of TSP and uPA in normal and malignant breast tissue. Complex formation of TSP with uPA may serve to localize, concentrate, and protect these enzymes on cell surfaces and within the extracellular matrix, thereby providing a reservoir of plasminogen activator activity.
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PMID:Thrombospondin forms complexes with single-chain and two-chain forms of urokinase. 214 8


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