Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasminogen is present in the cornea andcan be activated to plasmin by plasminogen activator. Plasmin is able, in turn, to activate latent collagenase. This system could initiate and perpetuate the collagen degradation of corneal ulceration. This report details evidence for such a system in the cornea. Plasmin has been found to activate latent collagenase from organ cultures of ulcerating rabbit corneas and from fibroblast cultures derived from such corneas. As in the case of activation by trypsin, activation by plasmin results in the conversion of the 40,000 MW latent form to an active species of 23,000 MW. Explants of normal or alkali-burned, ulcerating corneas demonstrated plasminogen-dependent lysis of fibrin clots; frozen sections of such corneas demonstrated that lysis begins in the superficial stroma near the periphery of the cornea. Multiply freeze-thawed ulcerating corneas, but not normal corneas, showed initial lysis, not peripherally but at the ulcer region containing polymorphonuclear leukocytes. The fact that the peripheral lytic pattern existed in corneas that were obtained from eyes prefrozen in liquid nitrogen before excision of the corneas would suggest that plasminogen activator is normally contained in cells in vivo and is not made only in response to tissue injury. There was no correlation between the location of blood vessels or the presence of the corneal endothelium and the plasminogen-dependent lysis. Plasminogen activator from the ulcerating cornea and from fibroblasts was characterized by sodium dodecyl sulfate--gel electrophoresis of its cleavage products of plasminogen. The activator cleaves plasminogen into heavy- and light-chain fragments similar to those produced from plasminogen by urokinase. Plasminogen activator activity was quantitated by a new assay that restricts diffusion of the enzyme to one dimension into a narrow bore tube. The addition of plasminogen daily to cultures of ulcerating corneas resulted in earlier rises of plasminogen activator, collagenase, and collagen degradation fragments in the culture media. Although total plasminogen activator levels were not increased by the addition of plasminogen to culture, levels of both collagenase and solubilized collagen were approximately doubled. It is concluded that the plasminogen activator--plasmin system might play an important role in the destruction of stromal matrix in corneal ulceration.
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PMID:Evidence for a role of the plasminogen activator--plasmin system in corneal ulceration. 625 12

The relationship of a basement membrane collagen degrading enzyme (BM collagenase) and plasminogen activator (PA) was studied in a number of non-malignant and malignant human and murine cell lines. Several non-malignant cell lines secreted significant amounts of PA but not detectable BM collagenase activity whereas the malignant cell lines, with one exception, secreted both enzymes. Therefore, the secretion of BM collagenase appears to be a characteristic of many malignant cells whereas PA is synthesized also by normal cells. The BM collagenase needed proteolytic activation for maximal activity indicating that it is secreted in a latent form. The addition of plasminogen to the culture medium of human fibrosarcoma cells (HT-1080) resulted in maximal activation of the enzyme. Plasmin, but not plasminogen, increased the activity of partially purified enzyme protein. Accordingly, the activation of latent BM collagenase in vivo may be facilitated by PA through the conversion of plasminogen to plasmin. It is suggested that the secretion of BM collagenase concomitantly with PA is a prerequisite for metastasis.
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PMID:Secretion of basement membrane collagen degrading enzyme and plasminogen activator by transformed cells--role in metastasis. 629 70

Plasmin-mediated extracellular proteolysis has been implicated in the degradation of bone in normal and pathological conditions. Normal and malignant osteoblasts can produce both tissue-type plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA). We have used the osteosarcoma cell line MG63 to address the question of whether the enhanced bone turnover in osteosarcomas is mediated by t-PA or by u-PAA and to study the effect of the cytokine interleukin-1 alpha (IL-1 alpha), known to influence bone degradation, on the plasminogen activator production and extracellular matrix degradation in malignant osteoblastic cells. Furthermore, the effect of IL-1 alpha on the synthesis of matrix metalloproteinases (MMPs) and their inhibitors (TIMPs) was analyzed. u-PA production by MG63 was high (approximately 180 ng/10(6) cells/24 h). Also t-PA and PAI-1 production was observed. u-PA production was rapidly increased in MG63 by IL-1 alpha (10 ng/ml), whereas an effect on t-PA production was only found after a prolonged incubation and hardly any effect of IL-1 alpha on PAI-1 production was observed. mRNA analysis revealed similar effects. u-PA receptor (u-PAR) mRNA was detectable in MG63 cells and could be increased by IL-1 alpha after 24 h. In MG63, u-PA-mediated extracellular matrix degradation was detectable, and IL-1 alpha increased the u-PA-mediated matrix degradation (approximately 2-fold). Under control conditions in MG63, only MMP-2, TIMP-1, and TIMP-2 mRNA could be observed. After the addition of IL-1 alpha, a very rapid increase in MMP-1 and MMP-3 mRNA could be observed as well as a moderate increase in TIMP-1 mRNA. The presence of MMP-2 was demonstrated by gelatin zymography. These results show that IL-1 alpha can stimulate u-PA production and can regulate extracellular proteolytic activity mainly via u-PA induction in the MG63 osteosarcoma cell line. Furthermore, IL-1 alpha has a strong stimulating effect on the production of MMP-1 and MMP-3. These findings suggest that u-PA and possibly MMP-1 and MMP-3 play an important role in the process of bone turnover in osteosarcomas.
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PMID:Regulation of plasminogen activation, matrix metalloproteinases and urokinase-type plasminogen activator-mediated extracellular matrix degradation in human osteosarcoma cell line MG63 by interleukin-1 alpha. 750 10

Atherosclerosis is an inflammatory reaction to accumulated extracellular lipid in the arterial intima. Evidence from pathological studies indicate that there is constant deposition and lysis of fibrin within the atherosclerotic arterial wall. In patients with stable peripheral atherosclerosis, the functional severity of the disease is associated with circulating fibrinogen and degradation of cross-linked fibrin reflecting procoagulant activity in the blood-vessel wall interface, or in the wall itself. In atheromas the fibrinolytic activity is connected to macrophages, which can assemble in the plasminogen-plasmin system and generate plasmin-mediated pericellular proteolysis in tissues with inflammation. Plasmin capable of activating collagenase may therefore be a candidate for plaque rupture. The nature of the exposed vascular tissue, the inflammatory state, tissue-factor dependent thrombin generation and the degree of matrix degradation regulate platelet reactivity. Little is yet known about platelet adhesive functions in proteolyzed collagens that are the underlying substrate where platelets deposit during plaque rupture, the triggering event for thrombosis. Research in these areas is likely to improve the understanding of the thrombogenicity of atheromas when the tissue is suddenly exposed to blood.
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PMID:Inflammation in atheroma: implications for plaque rupture and platelet-collagen interaction. 813 97

Plasmin was found to degrade the fibronectin (Fn) mesh produced by cultures of normal rabbit corneal fibroblasts, cause breakdown of F-actin-containing microfilament bundles ("stress fibers"), and increase levels of active type I interstitial collagenase (MMP-1) in the medium. Fibroblast cultures derived from alkali-burned, ulcerating rabbit corneas also responded to plasmin by secreting collagenase, detected only in active form. Moreover, harvests from organ cultures of ulcerating corneas not only had higher levels of urokinase-like plasminogen activator (uPA) than normal cultures but also had higher levels of Fn degradation fragments. The results are consistent with reports that indicate that perturbation of the alpha 5 beta 1 integrin (Fn) receptor by proteolytic fragments of Fn causes the increased synthesis and secretion of MMP-1. The uPA/plasmin system, therefore, might have an important role in regulating collagenase synthesis, secretion, and activation during wound remodelling and stromal ulceration.
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PMID:Regulation of corneal fibroblast MMP-1 collagenase secretion by plasmin. 830 64

Plasmin and matrix metalloproteinases (MMPs) both participate in extracellular matrix remodeling. This study examined the effects of tumor necrosis factor-alpha (TNF-alpha) and plasminogen on collagenase, stromelysin, and plasminogen activator inhibitor-1 (PAI-1) synthesis of collagenase and stromelysin, which remained predominantly in proenzyme forms, as determined by Western analysis of culture media. In contrast, plasminogen and plasmin not only increased secretion of MMPs but also induced cleavage to their active forms. The serine protease inhibitor aprotinin inhibited this activation of MMPs by plasminogen and plasmin. TNF-alpha reduced plasminogen-induced activation of MMPs, suggesting induction of an inhibitor or plasmin generation, such as PAI-1. Enzyme-linked immunosorbent assay of culture media showed that TNF-alpha (10 ng/mL) increased PAI-1 secretion by 4.2 fold compared with control (105.5 +/- 9.6) versus 24.9 +/- 1.7 ng/mL, n = 3). Surprisingly plasminogen also increased PAI-1 secretion by vascular SMCs (3.6-fold over control). These results demonstrate coordination of cytokines and serine proteases in regulating MMP secretion and activation. In addition, the induction of PAI-1 by TNF-alpha and plasminogen suggests a negative feedback mechanisms limit both plasmin-mediated and MMP-mediated matrix degradation.
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PMID:Regulation of matrix metalloproteinases and plasminogen activator inhibitor-1 synthesis by plasminogen in cultured human vascular smooth muscle cells. 860 4

Perlecan is a modular heparan sulfate proteoglycan that is localized to cell surfaces and within basement membranes. Its ability to interact with basic fibroblast growth factor (bFGF) suggests a central role in angiogenesis during development, wound healing, and tumor invasion. In the present study we investigated, using domain specific anti-perlecan monoclonal antibodies, the binding site of bFGF on human endothelial perlecan and its cleavage by proteolytic and glycolytic enzymes. The heparan sulfate was removed from perlecan by heparitinase treatment, and the approximately 450-kDa protein core was digested with various proteases. Plasmin digestion resulted in a large fragment of approximately 300 kDa, whereas stromelysin and rat collagenase cleaved the protein core into smaller fragments. All three proteases removed immunoreactivity toward the anti-domain I antibody. We showed also that perlecan bound bFGF specifically by the heparan sulfate chains located on the amino-terminal domain I. Once bound, the growth factor was released very efficiently by stromelysin, rat collagenase, plasmin, heparitinase I, platelet extract, and heparin. Interestingly, heparinase I, an enzyme with a substrate specificity for regions of heparan sulfate similar to those that bind bFGF, released only small amounts of bFGF. Our findings provide direct evidence that bFGF binds to heparan sulfate sequences attached to domain I and support the hypothesis that perlecan represents a major storage site for this growth factor in the blood vessel wall. Moreover, the concerted action of proteases that degrade the protein core and heparanases that remove the heparan sulfate may modulate the bioavailability of the growth factor.
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PMID:The degradation of human endothelial cell-derived perlecan and release of bound basic fibroblast growth factor by stromelysin, collagenase, plasmin, and heparanases. 862 65

Vascular endothelial growth factor (VEGF) is a potent and specific mitogen for endothelial cells. VEGF is synthesized and secreted by many differentiated cells in response to a variety of stimuli including hypoxia. VEGF is expressed in a variety of tissues as multiple homodimeric forms (121, 165, 189, and 206 amino acids/monomer) resulting from alternative RNA splicing. VEGF121 is a soluble mitogen that does not bind heparin; the longer forms of VEGF bind heparin with progressively higher affinity. The higher molecular weight forms of VEGF can be cleaved by plasmin to release a diffusible form(s) of VEGF. We characterized the proteolysis of VEGF by plasmin and other proteases. Thrombin, elastase, and collagenase did not cleave VEGF, whereas trypsin generated a series of smaller fragments. The isolated plasmin fragments of VEGF were compared with respect to heparin binding, interaction with soluble VEGF receptors, and ability to promote endothelial cell mitogenesis. Plasmin yields two fragments of VEGF as indicated by reverse phase high performance liquid chromatography and SDS-polyacrylamide gel electrophoresis: an amino-terminal homodimeric protein containing receptor binding determinants and a carboxyl-terminal polypeptide which bound heparin. Amino-terminal sequencing of the carboxyl-terminal peptide identified the plasmin cleavage site as Arg110-Ala111. A heterodimeric form of VEGF165/110, was isolated from partial plasmin digests of VEGF165. The carboxyl-terminal polypeptide (111-165) displayed no affinity for soluble kinase domain region (KDR) or Fms-like tyrosine kinase (FLT-1) receptors. The various isoforms of VEGF (165, 165/110, and 121) bound soluble kinase domain region receptor with similar affinity (approximately 30 pM). In contrast, soluble FLT-1 receptor differentiated VEGF isoforms (165, 165/110, 110, and 121) with apparent affinities of 10, 30, 120, and 200 pM, respectively. Endothelial cell mitogenic potencies of VEGF110 and VEGF121 were decreased more than 100-fold compared to that of VEGF165. The present findings indicate that removal of the carboxyl-terminal domain, whether it is due to alternative splicing of mRNA or to proteolysis, is associated with a significant loss in bioactivity.
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PMID:The carboxyl-terminal domain (111-165) of vascular endothelial growth factor is critical for its mitogenic potency. 863 22

Diabetes produces extensive alterations of collagen metabolism including enhanced gingival collagenase activity. However, the mechanism for this enhanced enzyme activity is unclear. Collagenase is secreted from cells in a latent form and plasmin has been proposed as an important in vivo activator of procollagenase. Plasmin is converted from its precursor, plasminogen, by the proteolytic action of a serine proteinase, plasminogen activator (PA). The current study was therefore undertaken to determine the effect of diabetes on gingival PA activity in the rat. Since doxycycline is a potent collagenase inhibitor, the effect of doxycycline on gingival PA activity was also investigated. Eighteen male, Sprague-Dawley rats were made diabetic by streptozotocin injection (7 mg/100 g). Control rats (N = 8) were sham-treated. Doxycycline (5 mg/day/rat) was administered to 9 of the 18 diabetic rats by gavage on a daily basis. The other 9 diabetic rats were administered with saline. After 3 weeks, blood and gingival tissue were collected from each rat for the determination of glucose level and gingival PA activity. The tissues were then minced and extracted with 5 mM sodium phosphate containing 1% Triton X-100. PA assay was performed using chromatogenic substrate to determine PA activity in the extracts. Gingival PA activity in the diabetic rats was significantly reduced compared to the control (13.5 +/- 1.6 vs. 36.0 +/- 3.3 microunits/100 micrograms protein, P < 0.01). Doxycycline administration to diabetic rats had no effect on the already reduced gingival PA activity (10.4 +/- 3.5 in doxycycline-treated rats vs. 13.5 +/- 1.6 mu units/100 micrograms protein in untreated diabetic rats). PA activities in gingival tissues from the diabetic, nondiabetic control and doxycycline-treated diabetic groups were also demonstrated on zymographs as lytic bands. Regarding the well-known fact that gingival collagenase activity is enhanced during diabetes, our results did not support the notion that this biochemical alteration is attributed to increased activation of procollagenase by PA.
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PMID:Plasminogen activator activity is decreased in rat gingiva during diabetes. 886 12

Proteolytic enzymes have been used for wound debridement for many years. The two enzymes most widely used in Europe are fibrinolysin/desoxyribonuclease and collagenase. Despite their frequent use, very few placebo-controlled studies comparing the enzymes with vehiculum only, or with each other, are available. In a specially developed necrotic ulcer animal model, combined with a computer image analysis technique to measure necrotic and total wound surface areas quantitatively, we assessed the wound-cleansing properties of fibrinolysin/DNase oleogel, collagenase ointment, saline-soaked gauze control treatment, and new galenic formulations of collagenase, including placebos. The average relative area of necrotic tissue present in the wound after 1 week was 31% for collagenase ointment and 56% for fibrinolysin/DNAse oleogel (P = 0.0037). Collagenase gel was significantly (P = 0.0007) better in removing necrosis than placebo (gel only). Fibrinolysin/DNAse was not significantly more effective than the three placebo or control treatments (placebo film, placebo gel, saline-soaked gauzes). We conclude that collagenase is a suitable enzyme for wound debridement, but we were not able to detect clinical efficacy of fibrinolysin/DNAse in this model.
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PMID:Quantitative and objective evaluation of wound debriding properties of collagenase and fibrinolysin/desoxyribonuclease in a necrotic ulcer animal model. 955 91


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