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)

Heparin is a potent inhibitor of arterial smooth muscle cell (SMC) migration and proliferation in vivo and in vitro. We propose that heparin affects these SMC functions by interfering with either the expression or the activity of secreted proteases required for cell movement. We have reported that heparin selectively inhibits the expression of tissue-type plasminogen activator in SMCs during mitogenesis. In this study we show that the gene expression of another kind of protease, interstitial collagenase, is induced by fetal bovine serum and is also suppressed by heparin. The inhibitory effect on the induced collagenase mRNA is specific to heparin-like molecules and does not depend on the anticoagulant activity of heparin. The induction of the collagenase gene depends on the protein kinase C pathway, since it can be induced by phorbol esters such as phorbol 12-myristate 13-acetate and blocked by inhibitors such as H-7 and staurosporine. In transient transfection assays with chloramphenicol acetyltransferase constructs containing the phorbol ester-responsive element introduced into baboon SMCs, heparin inhibits transcription induced by serum or phorbol 12-myristate 13-acetate. These results support the conclusion that, in primate SMCs, interstitial collagenase gene transcription mediated by the phorbol ester-responsive element is blocked by heparin.
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PMID:Heparin inhibits collagenase gene expression mediated by phorbol ester-responsive element in primate arterial smooth muscle cells. 131 15

We have screened six human squamous carcinoma cell lines for their ability to invade connective tissue by using the experimentally modified chorioallantoic membrane of a chick embryo as an in vivo model of invasion. In confirmation of our earlier studies, all the invasive cell lines expressed high levels of surface-bound urokinase type plasminogen activator (uPA). However, some cell lines expressing this activity were not invasive, suggesting that surface uPA, although necessary, was not sufficient. Since in addition to fibronectin, that can be degraded by uPA or plasmin, chorioallantoic membrane connective tissue contains collagen, we examined the profile of collagenases secreted by the various cell lines in search for an activity that would coincide with the invasive phenotype. We found, using gelatin substrate gels, that type IV gelatinase was produced by all six cell types tested, three cell types produced the M(r) 92,000 gelatinase, and three a lower-molecular-weight activity, which we identified by immunoprecipitation with specific antibodies, and by a direct assay of activity, as interstitial collagenase. Only the latter cells were found to be highly invasive. We showed previously that continuous culture in vitro of one of the carcinoma cell lines, HEp3, led to a gradual extinction of their malignant phenotype. To confirm the correlation between invasion and the production of interstitial collagenase, we examined these two functions in cells freshly isolated from a HEp3 tumor and intermittently during passage in vitro. We found that, although the surface uPA activity was slightly diminished in the in vitro grown cultures, it was still within the range of values found in highly malignant cells, suggesting that it is not the reason for the decrease in invasiveness. In contrast, the reduction in interstitial collagenase closely followed the loss of the invasive phenotype; after 30 in vitro passages the cells were almost completely devoid of interstitial collagenase and unable to invade. The decrease in collagenase activity was not the result of an increased tissue inhibitor of metalloproteinases production.
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PMID:Invasion of connective tissue by human carcinoma cell lines: requirement for urokinase, urokinase receptor, and interstitial collagenase. 133 82

There are two types of collagenases, products of two distinct genes, called MMP-1 (matrix metalloproteinase 1 or "fibroblast-type collagenase") and MMP-8 ("neutrophil collagenase"). In synovial fluid, MMP-8 is stored as latent proenzyme in polymorphonuclear neutrophils. MMP-8 is activated by hypochlorous acid produced by myeloperoxidase from hydrogen peroxide and chloride ion and by the hydroxyl radical produced in Haber Weiss reaction fed by superoxide produced by, eg, NADPH (reduced nicotinamide adenine dinucleotide) oxidase and xanthine oxidase. In addition to activation upon secretion, oxidatively modified MMP-8 is susceptible to a subsequent proteolytic attack and activation by cathepsin G. The authors suggest that activation of neutrophil-derived MMP-8 involves oxidative, nonproteolytic activation upon secretion and a more slowly progressive proteolytic activation by cathepsin G (or chymases and tryptases), and that these oxidative and proteolytic activation mechanisms act in concert. In contrast to MMP-8, MMP-1 is synthesized de novo and secreted immediately after synthesis by fibroblasts, macrophages, and some epithelial cells. Human rheumatoid synovial tissue contains mainly fibroblast-type MMP-1 collagenase as assessed by collagenase extracted from synovial tissue and by MMP-1 and MMP-8 immunostaining. It is suggested that in vivo, MMP-1 in synovitis tissue is activated by a plasminogen activator/plasminogen/prostromelysin (alternatively tryptases)/proMMP-1 cascade. In conclusion, MMP-8 and MMP-1 show type-specific compartmentalization and modes of activation in rheumatoid synovial fluid and tissue.
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PMID:Collagenase in synovitis of rheumatoid arthritis. 141 81

The preovulatory surge of gonadotropins activates a cascade of proteolytic enzymes resulting in the rupture of the follicular wall and the release of a fertilizable ovum during ovulation. In the rat the process is initiated by a rise in follicular tissue-type plasminogen activator, produced predominantly in granulosa cells. Recent studies revealed a preovulatory increase in ovarian collagenolytic activity in vivo and an increase in activatable collagenase in vitro. In view of the complicated control of mammalian collagenase synthesis and activity by local inhibitors and activators, we examined the expression of ovarian interstitial and type IV collagenases and tissue inhibitor of metalloproteinase (TIMP) mRNA after an ovulatory stimulus. Ovarian mRNA was isolated from immature PMSG-treated rats 3, 6, and 9 h after hCG stimulation. Northern blot analyses revealed a mRNA of 1.7 kilobases (kb) hybridizing with the human interstitial collagenase cDNA probe. The levels of this mRNA showed a 25-fold increase between 3-6 h after hCG stimulation. The human cDNA probe of collagenase IV hybridized with a mRNA of 3.1 kb, which showed only a 4-fold increase 9 h after hCG treatment. The interstitial collagenase mRNA was expressed in both granulosa cells of preovulatory follicles and the residual ovarian tissue, whereas the expression of collagenase IV mRNA was limited to the residual tissue. Inhibitors of eicosanoid synthesis, previously shown to block ovulation and the LH/hCG-induced rise in ovarian collagenolysis, suppressed the gonadotropic stimulation of interstitial collagenase mRNA, but slightly stimulated that of collagenase IV. The mouse cDNA probe of TIMP hybridized with a 0.9-kb mRNA, which was stimulated by hCG to reach a maximum (7- to 8-fold increase) between 6-9 h after stimulation. TIMP was expressed and stimulated in both the granulosa cells and the residual tissue. Inhibitors of eicosanoid synthesis did not affect the gonadotropic stimulation of TIMP mRNA. These data support the suggested role of interstitial collagenase in follicle rupture and the essential role of eicosanoids in the mediation of gonadotropic stimulation of interstitial collagenase production and action. The observed stimulation of TIMP mRNA expression by the gonadotropin and the lack of any effect of eicosanoid synthesis inhibitors on this action of LH/hCG offer an additional mechanism by which these inhibitors may block ovulation. Thus, the suppression of ovulation by inhibitors of eicosanoid synthesis may result from selective inhibition of interstitial collagenase expression and undisturbed gonadotropin-stimulated TIMP expression.
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PMID:Preovulatory changes in ovarian expression of collagenases and tissue metalloproteinase inhibitor messenger ribonucleic acid: role of eicosanoids. 165 86

To identify agents and mechanisms responsible for the thickened basement membranes characteristic of diabetic angiopathy we examined the effects of high glucose (30 mM) on the expression of genes related to extracellular matrix composition and turnover and investigated whether the changes induced by high glucose were mimicked and sustained by activation of protein kinase C or A. In human umbilical vein endothelial cells high glucose increased fibronectin, collagen IV, tissue plasminogen activator (tPA), and plasminogen activator-inhibitor 1 (PAI-1) mRNA levels 2-fold but did not affect type IV and interstitial collagenase expression. Acute treatment with phorbol esters resulted in increased collagen IV, tPA, PAI-1, and interstitial collagenase mRNAs; the type IV collagenase mRNA levels were instead suppressed to 50% of control. Upon longer exposure to phorbol esters (48 h) suppression of fibronectin and PAI-1 mRNAs also occurred. Intracellular elevation of cAMP led to over-expression of fibronectin and type IV collagenase and potentiated the effects of phorbol esters on collagen IV, tPA, and interstitial collagenase expression. The mRNA changes induced by high glucose occurred in the absence of protein kinase C activation or cAMP elevation. These studies indicate that events other than activation of protein kinase C or A bridge high ambient glucose to changes in endothelial cell gene expression that may contribute to diabetic angiopathy.
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PMID:Expression of genes related to the extracellular matrix in human endothelial cells. Differential modulation by elevated glucose concentrations, phorbol esters, and cAMP. 171 80

Implantation and subsequent placental development in many species including the human are dependent on trophoblast invasion of the uterine epithelium, the underlying basement membrane, connective tissue and blood vessels. However, trophoblast invasion in situ is strictly controlled by the microenvironment provided by the pregnant uterus. Key mechanisms underlying various steps in trophoblast invasion of basement membrane and stroma are similar to those identified in the case of invasive tumor cells: (a) attachment to basement membrane by binding to laminin and possibly other basement membrane components; (b) detachment from the basement membrane matrix prior to its penetration, a process that requires the presence of complex-type oligosaccharides on the cell surface; (c) breakdown of basement membrane components by trophoblast-derived metalloproteases (type IV and interstitial collagenase) and serine proteases (plasminogen activator). Type IV collagenase activity is stimulated by binding to laminin, a molecule also secreted by the trophoblast. Activation of trophoblast-derived metalloproteases appears to be plasmin-dependent. Plasmin results from the cleavage of plasminogen by trophoblast-derived plasminogen activator. Control of trophoblast invasion in situ is mediated by decidua-derived transforming growth factor beta (TGF beta) which in turn induces tissue inhibitor of metalloproteases (TIMP) both in the decidua and the trophoblast. We suggest that this control of trophoblast invasiveness is regulated both spatially as well as temporally during gestation. A preprogrammed decline in trophoblast invasiveness with increasing gestational age remains an additional possibility. The nature of the loss of control of trophoblast invasiveness in choriocarcinoma remains to be identified. Refractoriness to TGF beta action remains to strong possibility.
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PMID:Mechanisms of trophoblast invasiveness and their control: the role of proteases and protease inhibitors. 209 85

After specific chemotherapy, granulomatous fibrosis undergoes a marked reversal in liver of Schistosoma mansoni-infected mice. We have previously shown that this fibrosis reversal was related to a high proportion of the active form of the interstitial collagenase. In vitro, plasmin has been described as a physiological activator of interstitial procollagenase. Moreover, plasmin itself degrades directly matrix components such as proteoglycans and fibronectin. We have thus followed the course of the plasminogen activator, which converts plasminogen zymogen to plasmin, in liver of S. mansoni-infected mice treated with praziquantel, as schistosomicidal drug. It was found that plasminogen activator activity in the liver increases rapidly until 5 days after treatment as compared to nontreated infected mice and then diminishes gradually. Increased plasminogen activator activity appears to be one of initial events leading to this fibrosis reversal.
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PMID:Plasminogen activator activity increases during reversal of hepatic fibrosis in murine schistosomiasis. 211 35

The role of basic fibroblast growth factor-(bFGF) induced proteinases in basement membrane (BM) invasion by bovine capillary endothelial (BCE) cells was studied using a quantitative in vitro assay previously described (Mignatti et al., 1986). 125I-iododeoxyuridine-labeled BCE cells were grown for 72 h on the human amnion BM, and cell invasion was determined by measuring the radioactivity associated with the tissue after removal of the noninvasive cell layer. BCE cells were noninvasive under normal conditions. Addition of human bFGF to either the BM or to the stromal aspect of the amnion induced BCE cell invasion with a dose-dependent response. This effect was maximal in the presence of 70 ng/ml bFGF, and was inhibited by anti-FGF antibody. Transforming growth factor beta, as well as plasmin inhibitors and anti-tissue type plasminogen activator antibody inhibited BCE cell invasion. The tissue inhibitor of metalloproteinases, 1-10 phenanthroline, anti-type IV and anti-interstitial collagenase antibodies had the same effect. On the contrary, anti-stromelysin antibody and Eglin, an inhibitor of elastase, were ineffective. The results obtained show that both the plasminogen activator-plasmin system and specific collagenases are involved in the invasive process occurring during angiogenesis.
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PMID:In vitro angiogenesis on the human amniotic membrane: requirement for basic fibroblast growth factor-induced proteinases. 246 98

We present a cascade of proteolytic events catalyzed by the proteases secreted by cultured keratinocytes and fibroblasts that results in the activation of interstitial procollagenase. Cultured human skin fibroblasts constitutively secrete interstitial collagenase and stromelysin as proenzymes. In contrast, interstitial collagenase found in serum-free skin organ culture conditioned medium is activated. Cocultivation of the major cellular components of skin organ culture, dermal fibroblasts and epidermal keratinocytes, induces activation of interstitial procollagenase and prostromelysin in the presence of plasminogen. This activation occurs through a urokinase-dependent pathway where added keratinocytes secrete the plasminogen activator urokinase, which converts plasminogen into plasmin. Plasmin is capable of activating purified procollagenase and prostromelysin. Plasmin-dependent activation of procollagenase generates an enzyme species, by amino-terminal processing, identical to those generated by limited proteolysis with trypsin or treatment with organomercurial compounds. Catalytic amounts of activated stromelysin can in turn convert plasmin- or trypsin-activated collagenase into a fully active enzyme by removal of approximately 15 amino acid residues from the carboxyl end of the enzyme. This results in a 5- to 8-fold increase in collagenase specific activity that is due to its proteolytic cleavage and not to the presence of the activator stromelysin. Stromelysin alone in both pro- and activated forms is not capable of efficient activation of human fibroblast interstitial procollagenase.
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PMID:Tissue cooperation in a proteolytic cascade activating human interstitial collagenase. 246 56

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


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