Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
 10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Coronary stent implantation was performed for blocking elastin recoil, reducing acute complications and restenosis. In 89 (95%) of 91 patients successful stent implantation was possible. No stent embolization occurred. Coronary luminal diameter measured 1.05 +/- 0.57 before PTCA and 1.9 +/- 0.2 mm post PTCA. After stent implantation mean diameter of the coronary artery measured 3.05 +/- 0.2 mm, with a balloon diameter of 3.0. Thus, elastic recoil is nearly completely blocked. In 28 (31%) of 91 patients stent implantation was performed for acute symptomatic dissection in 27 patients and occlusion in one patient. Stent delivery was successful in all. There was no acute occlusion, one acute thrombosis which could be treated with urokinase, no Q-wave-infarct, 4 (14%) non-Q-wave-infarcts and 14 (20%) CK-elevations without ECG changes. Coronary bypass surgery was necessary in 2 patients on an elective base during follow-up. In 72 (90%) of 80 patients follow-up coronary angiograms after 4 to 6 months were performed. Restenosis rate measured 21% overall, 14% for single stent, 60% for multiple stent implantation, and 14% in bail-out situations. Subacute thrombosis occurred in 10 (12%) of 89 patients, 7 (70%) of 10 events after bail-out stenting. Recanalization by thrombolytic and/or PTCA was possible in 9/10 patients. By improving monitoring of anticoagulation, the subacute thrombosis rate could be reduced to 3% even in bail-out situations. Bleeding complication occurred in 10% of the patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Coronary vascular stent implantation--experiences with the first 100 implants]. 144 Oct 68

Human fibrosarcoma (HT-1080) cells, in contrast to normal fibroblasts, rapidly hydrolyze the glycoprotein, collagen, and elastin extracellular matrix (ECM) synthesized by cultured rat aortic smooth muscle cells. This degradation occurs at a rapid rate in the presence of serum, indicating that the cellular proteases responsible are relatively insensitive to serum proteinase inhibitors. Here it is shown that protease nexin I (PNI), a fibroblast-secreted inhibitor of urokinase, plasmin, and certain other serine proteinases, effectively inhibited the HT-1080 cell-mediated degradation of this ECM. PNI at 2.0 nM significantly inhibited matrix destruction for 1-2 days and at 0.2 microM caused a virtually complete inhibition that persisted for the entire 10-day period of observation. Inhibition of ECM destruction was accompanied by a transient arrest of HT-1080 cell proliferation that took place during the first 3 days after PNI addition. PNI did not inhibit the growth of normal fibroblasts and also did not inhibit the growth of HT-1080 cells that were seeded onto plastic dishes rather than onto ECM. Like many types of malignant cells, HT-1080 cells release large amounts of urokinase. Antibody against this plasminogen activator partially protected ECM from HT-1080 cell-mediated hydrolysis, indicating that it may have been a target of PNI. One potential physiological function of PNI could be to help maintain the integrity of connective tissue matrices, protection that malignant cells could overcome by secreting proteinases in excessive amounts.
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PMID:Inhibition of tumor-cell-mediated extracellular matrix destruction by a fibroblast proteinase inhibitor, protease nexin I. 351 69

Fibrin deposition is prominent in the histopathology of a number of inflammatory lung diseases. Plasmin, activated locally in the lung, can degrade not only this fibrin but potentially structural proteins important to normal lung architecture. Because alveolar macrophages are prominent in inflammatory processes of the lung, we examined the plasminogen activator (PA) activity of human alveolar macrophages. Intact alveolar macrophages from each of 10 healthy subjects expressed PA activity. There was no difference in activity between smoking and nonsmoking individuals. The activator activity was largely cell-associated, but under certain culture conditions, macrophages released a soluble activator into the culture medium. The membrane-bound activator had an apparent molecular mass of 52-55 kD in nonreduced sodium dodecyl sulfate (SDS) gels, and monospecific antibody to urokinase neutralized the enzyme activity. Immunoprecipitation of [35S]methionine-labeled cells showed that human alveolar macrophages actually synthesize the PA in vitro. SDS-gel analysis of the immunoprecipitated material revealed the predominant species of PA to be structurally similar to reduced, active urokinase. We also examined the role of PA in the degradation of both insoluble fibrin and elastin matrices by live macrophages. Cells degraded an insoluble fibrin matrix in the presence of plasminogen whether or not the macrophages contacted the fibrin as long as proteinase inhibitors were not in the culture medium. In the presence of serum proteinase inhibitors, macrophages still degraded a fibrin matrix, but only if they were in contact with the fibrin. Live macrophages also degraded insoluble elastin only when in contact with the elastin but could do so even in the presence of serum proteinase inhibitors. In matrices containing a mixture of fibrin and elastin, cells did not degrade elastin unless plasminogen was added to the medium. These results indicate that normal alveolar macrophages synthesize and express, probably at the cell surface, a PA. The PA is physically and immunochemically similar to urokinase but is membrane bound. The PA is critical to the degradation of fibrin matrices by normal alveolar macrophages. Under tissue conditions where elastin is embedded within other structural proteins, the activator may be rate-limiting in elastin degradation as well. The findings also suggest that live macrophage proteolytic activity is relatively insensitive to the presence of serum proteinase inhibitors, suggesting a mechanism for proteolytic lung injury even in the presence of proteinase-proteinase inhibitor balance in the soluble phase.
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PMID:Degradation of fibrin and elastin by intact human alveolar macrophages in vitro. Characterization of a plasminogen activator and its role in matrix degradation. 636 89

Heparin and heparan sulfate, exhibiting wide biological interactions, are constituted of block structures. A defined pentasaccharide motif was found responsible for the enhancement of the rate of inactivation of factor Xa by antithrombin III. Heparin also interacts with other serine proteinase inhibitors as protease nexin I, and thus possibly modulates extracellular matrix proteolysis by serine proteinases in the pericellular environment. Human neutrophil elastase (HNE) activity is inhibited by heparin with Ki = 75 pM. This strong interaction is electrostatic, involving HNE/arginine residues disposed in a "cluster shoe" arrangement on the surface of the molecule and mainly OSO3- groups of heparin. HNE-heparin interactions also interfere with HNE associations with its natural inhibitors: it decreases the rate of association of HNE with alpha 1 proteinase inhibitor (alpha 1 P(i)) by 3 orders of magnitude, while increasing kass between HNE and mucus bronchial inhibitor (MBI) by > 10 fold. In vivo experiments demonstrated that heparin fragments lacking anticoagulant activity were able to nearly completely abolish emphysematous lesions induced in mice by a single intratracheal administration of 200 micrograms HNE. Long chain unsaturated fatty acids peptide conjugates were described as competitive HNE inhibitors (Hornebeck W. et al. 1985). We synthesized N-oleoyl heparin derivative (3 oleoyl groups/one molecule of heparin); such a lipophilic glycosaminoglycan (LipoGAG), although acting as an elastin protecting agent, possessed lower HNE inhibitory capacity as compared with heparin. In contrast, however, it was able to inhibit other serine proteinases such as urokinase, plasmin, porcine pancreatic apha-chymotrypsin and elastase. Such Lipo GAG's can be therefore useful to control matrix metalloproteinases (MMPs) during tissue remodeling or tumor invasion.
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PMID:Heparin and its derivatives modulate serine proteinases (SERPS) serine proteinase inhibitors (SERPINS) balance. Physiopathological relevance. 789 38

Human lung macrophages express all four of the known lysosomal thiol proteases: cathepsins B, H, L, and S. These enzymes share a similar size and targeting mechanism for lysosomal accumulation and all have relatively indiscriminate substrate specificity in comparison with such highly selective serine proteases as urokinase or thrombin. These enzymes do have distinctive properties: only cathepsin B has C-terminal dipeptidase activity, only cathepsin H has potent aminopeptidase activity, and only cathepsin L and S are elastolytic. Cathepsin S is unique in that it is stable at neutral pH; indeed, at neutral pH it has elastolytic activity roughly comparable with that of neutrophil elastase. Recent studies of the differential expression of these cathepsins suggest they not only cooperate in terminal degradation of endocytized protein but also have specific functions such as proenzyme activation, antigen processing, and tissue remodeling, especially bone matrix resorption. Lysates of lung macrophages degrade elastin at neutral pH, suggesting that necrosis of macrophages at sites of macrophage accumulation, e.g., caseation necrosis, could contribute to tissue destruction. Tissue destruction and remodeling by thiol proteases expressed by live macrophages, however, is limited by tight compartmentalization of cathepsins to lysosomes. Nonetheless, macrophages accumulate at sites of known injury in cigarette smokers. Because these cells contain potent elastases, and because lysosomal enzyme release and cell surface acidification are regulated events, dysregulation of thiol protease expression in stimulated macrophages may contribute to the injury observed in cigarette smokers with non-alpha-1-protease inhibitor-type emphysema.
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PMID:The role of thiol proteases in tissue injury and remodeling. 795 52

Current hypotheses suggest that the degradation of cervical collagen and elastin leads to cervical effacement and dilation during labor. The collagenolytic activity is thought to be initiated through the conversion of latent (pro)collagenase to active collagenase by the plasmin formed from plasminogen or by other proteases similarly formed from their inactive zymogens. We presently demonstrate that meperidine stimulates the activity of several enzymes in the proteolytic cascade leading toward proteolysis of connective tissue proteins. Meperidine in its therapeutic concentration range produces a 26% stimulation of urokinase activity on substrate S-2444, a 39% stimulation of plasmin activity on substrate S-2551, and a 33% stimulation of collagenase activity on 14C-labeled globin substrate. These direct effects on the enzyme activities are noted in vitro with the purified enzymes and were confirmed with several small molecular weight chromogenic substrates and with 14C-globin protein substrate. Oxytocin at levels found during active labor fails to stimulate the in vitro activity of purified urokinase, plasmin, collagenase, trypsin, or tissue-type plasminogen activator. The effect of meperidine on the proteolytic enzymes suggests that its ability to promote cervical effacement and distention during labor may be at least partially due to a meperidine-induced stimulation of cervical proteases.
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PMID:Direct stimulation of urokinase, plasmin, and collagenase by meperidine: a possible mechanism for the ability of meperidine to enhance cervical effacement and dilation. 847 75

Matrilysin (MAT) is a member of the matrix metalloproteinase (MMP) family which is believed to degrade components of the extracellular matrix (ECM) during processes of tissue remodeling. Although MAT is similar to the stromelysins in its substrate specificity, and to interstitial collagenase in the crystal structure of its catalytic domain, this enzyme is unique in that it lacks the carboxy-terminal segments encoded by other MMP genes. Characterization of the human MAT gene has revealed that the promoter region contains typical MMP promoter elements such as AP-1 and PEA3, which mediate responsiveness to growth factors, oncogenes, and phorbol esters. Activated recombinant forms of human MAT cleave ECM and basement membrane proteins such as fibronectin, collagen type IV, laminin, and particularly elastin, entactin, and cartilage proteoglycan aggregates. Furthermore, MAT appears to mediate the proteolytic processing of other molecules (e.g. tumor necrosis factor alpha precursor, urokinase plasminogen activator). MAT is expressed in a variety of tumors ranging from adenomas to carcinomas and adenocarcinomas of the breast, colon, prostate, stomach, upper aerodigestive tract, lung, and skin, where it may be involved in tumor formation as well as the tissue degradation which accompanies tumor cell extravasation. Localization of MAT mRNA and protein to the tumor cells is unusual in that the majority of MMPs are produced in the stroma. This distinctive tissue-restricted pattern of MAT expression is a recapitulation of the expression pattern in normal human tissue, where MAT protein localizes to secretory and ductal epithelium in the endometrium and in various exocrine glands. In the mouse, high constitutive levels of MAT mRNA are found in epithelial cells in the uterus, small intestine, and extra-testicular ducts. Taken together, these findings suggest that MAT may have a specific role in normal gland and organ function, a possibility which can be explored further by the genetic manipulation of MAT levels in vivo.
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PMID:Matrilysin: an epithelial matrix metalloproteinase with potentially novel functions. 872

Abdominal aortic aneurysms (AAA) are characterized by the destruction of the extracellular matrix (ECM) of the aortic wall, particularly its elastin elements. The fibrinolytic system is known to mediate proteolysis within the ECM. Plasmin, which is generated by plasminogen activators (PA), is capable of destroying the ECM directly and indirectly via the activation of latent matrix metalloproteases (MMP). In addition, plasmin also synergistically enhances the ability of macrophages to destroy ECM. In AAA tissue, elevated levels of both urokinase-type and tissue-type plasminogen activators (u-PA and t-PA) have been documented. u-PA and t-PA have been localized to macrophages within the inflammatory infiltrate which is characteristic of AAA. mRNA expression of both type PAs is elevated as well in comparison to both normal and atherosclerotic occlusive aorta. Supporting the role of PAs in AAA pathogenesis is the fact that plasmin is elevated in AAA tissue, as are MMP. As with PA, MMP expression has been localized to macrophages. These data all suggest that the aortic wall is being degraded in AAA by a synergistic combination of macrophages, PA, and MMP.
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PMID:Plasminogen activators in abdominal aortic aneurysmal disease. 895 90

Recent gene targeting studies indicate that the plasminogen system is implicated in cell migration and matrix degradation during arterial neointima formation and atherosclerotic aneurysm formation. This study examined whether plasmin proteolysis is involved in accelerated posttransplant arteriosclerosis (graft arterial disease). Donor carotid arteries from wild-type B10.A2R mice were transplanted into either plasminogen wild-type (Plg+/+) or homozygous plasminogen-deficient (Plg-/-) recipient mice with a genetic background of 75% C57BL/6 and 25% 129. Within 15 d after allograft transplantation, leukocytes and macrophages infiltrated the graft intima in Plg+/+ and Plg-/- recipient mice to a similar extent. In Plg+/+ recipients, the elastic laminae in the transplant media exhibited breaks through which macrophages infiltrated before smooth muscle cell proliferation, whereas in Plg-/- recipients, macrophages failed to infiltrate the transplant media which remained structurally more intact. After 45 d of transplantation, a multilayered smooth muscle cell-rich transplant neointima developed in Plg+/+ hosts, in contrast to Plg-/- recipients, in which the transplants contained a smaller intima, predominantly consisting of leukocytes, macrophages, and thrombus. Media necrosis, fragmentation of the elastic laminae, and adventitial remodeling were more pronounced in Plg+/+ than in Plg-/- recipient mice. Expression of the plasminogen activators (PA), urokinase-type PA (u-PA) and tissue-type PA (t-PA), and expression of the matrix metalloproteinases (MMPs), MMP-3, MMP-9, MMP-12, and MMP-13, were significantly increased within 15 d of transplantation when cells actively migrate. These data indicate that plasmin proteolysis plays a major role in allograft arteriosclerosis by mediating elastin degradation, macrophage infiltration, media remodeling, medial smooth muscle cell migration, and formation of a neointima.
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PMID:Reduced transplant arteriosclerosis in plasminogen-deficient mice. 981 64

Accumulation of inflammatory cells such as macrophages may lead to degeneration of connective tissue matrix in various skin diseases. Macrophage metalloelastase, is a matrix metalloproteinase (MMP-12) capable of degrading elastin as well as various basement membrane components. To investigate the role of human macrophage metalloelastase in skin, we assessed by in situ hybridization and immunohistochemistry 66 specimens representing skin diseases characterized either by changes in elastic fibers or by pronounced infiltrations of extravasating and migrating macrophages. CD68 immunostaining was performed to identify the human macrophage metalloelastase-positive cells and Weigert's Resorcin-Fuchsin staining to reveal the status of elastic fibers. We found abundant expression of human macrophage metalloelastase mRNA in macrophages in areas devoid of normal elastic fibers in granulomatous skin diseases sarcoidosis, necrobiosis lipoidica diabeticorum, and granuloma annulare. Positive cells for human macrophage metalloelastase protein could be detected in the same regions as well as positive immunostaining for urokinase plasminogen activator. Of the other matrix metalloproteinases capable of degrading elastin, 92 kDa gelatinase colocalized with human macrophage metalloelastase, while 72 kDa gelatinase was produced by surrounding fibroblast-like cells. Furthermore, human macrophage metalloelastase was expressed by macrophages in areas with disrupted basement membrane, as assessed by type IV collagen staining, in pityriasis lichenoides and dermatitis herpetiformis. Specimens of anetoderma, acrodermatitis chronica atrophicans and pseudoxanthoma elasticum showed no signal for human macrophage metalloelastase. Matrilysin was not detected in any of the samples investigated. Our study suggests that human macrophage metalloelastase may contribute to elastin degradation occurring in granulomatous skin diseases and may aid macrophage migration through the epidermal and vascular basement membranes in inflammatory disorders.
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PMID:Enhanced expression of human metalloelastase (MMP-12) in cutaneous granulomas and macrophage migration. 1020 35


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