EC:3.4.24.3 - FACTA Search

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

Relaxin is believed to play a role in connective tissue remodeling during pregnancy (Bell, R.J., Eddie, L. W., Lester, A. R., Wood, E. C., Johnston, P.D., and Niall, H. D. (1987) Obstet. Gynecol. 69, 585-589; MacLennan, A. H. (1983) Clin. Reprod. Fertil. 2, 77-95). In the present study, normal human fibroblasts exposed to concentrations of a synthetic bioactive relaxin peptide from 0.1 to 10 ng/ml synthesized and secreted the metalloproteinase procollagenase, which was immunoprecipitable as a doublet of 52 and 57 kDa by a monoclonal antibody to human collagenase. The stimulation in procollagenase protein expression was reflected in an elevation in procollagenase mRNA levels. Media conditioned for 48 h by relaxin-treated fibroblasts (0.1 ng/ml) contained 1.7 units/ml activatable collagenase compared with 0.2 units/ml by untreated fibroblasts. In addition, relaxin caused a modest decrease in the levels of tissue inhibitor of metalloproteinases, as detected by reverse zymography and Northern analysis. Relaxin was also a potent modulator of the collagen secretory phenotype of these fibroblasts. Relaxin at 100 ng/ml down-regulated collagen secretion by 40%. When fibroblasts were treated simultaneously with cytokines such as transforming growth factor beta or interleukin 1 beta, which stimulated collagen synthesis to at least 9-fold of basal levels, relaxin at 100 ng/ml was able to down-regulate collagen expression by up to 88%. This decrease was reflected by changes at the mRNA level. These results indicate that relaxin can cause significant collagen turnover both by stimulating collagenase expression and by down-modulating collagen synthesis and secretion.
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PMID:Relaxin modulates synthesis and secretion of procollagenase and collagen by human dermal fibroblasts. 216 58

Connective-tissue cells produce a family of metalloproteinases which, once activated, can degrade all the components of the extracellular matrix. These potent enzymes are all inhibited by the tissue inhibitor of metalloproteinases (TIMP), and it was thought that the levels of this inhibitor controlled the extracellular activity of these enzymes. We recently detected a new metalloproteinase inhibitor present in culture media of WI-38 fibroblasts. The inhibitor, named 'large inhibitor of metalloproteinases' (LIMP), can be separated from TIMP by gel filtration on Ultrogel AcA 44, where it is eluted with an apparent Mr of 76,000. A portion of this inhibitor-containing peak binds to concanavalin A-Sepharose, indicating that at least some of the inhibitor contains carbohydrate. LIMP inhibits collagenase (MMP-1), stromelysin (MMP-3) and gelatinase (MMP-2) in a dose-dependent fashion. Collagenase forms tight-binding complexes with LIMP, which can be separated from free collagenase on gel-filtration columns. The complex is eluted with Mr 81,600 (AcA 44) or Mr 60,000 (Superose 12). This complex is larger than that formed between collagenase and TIMP, which has Mr 52,800 (Aca 44) or 41,000 (Superose 12). Polyclonal antibody to TIMP does not recognize LIMP by immunoblotting, and will not block the inhibition of collagenase by LIMP, showing that LIMP is not a multimeric form of TIMP. The role of this new inhibitor in connective-tissue breakdown studies and its relationship to previously described inhibitors of metalloproteinases is discussed.
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PMID:Identification of a new metalloproteinase inhibitor that forms tight-binding complexes with collagenase. 216 93

High levels of collagenase are present in cervical extracts and in the circulation in women at parturition. This study examines the content of collagenase in human placentas at term, the possible contribution to circulating enzyme, and the changes that occur at parturition. Active and latent forms of collagenase are detectable in placentas with apparent relative molecular mass of 60,000 and 65,000 d, respectively. Gel-filtration chromatography was used to identify the presence of excess tissue inhibitor of metalloproteinase as the major collagenase inhibitor in the extracellular matrix of human placentas. After the onset of labor, there was a significant increase in total collagenase activity. Inactivation of the tissue inhibitor of metalloproteinase by reduction of placental extracts with dithiothreitol and alkylation with iodoacetamide resulted in a twelvefold to seventeenfold increase in collagenase activity. Umbilical cord collagenase levels were significantly lower than those in maternal circulation. The possibility of circulating collagenase originating from placenta in labor is discussed.
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PMID:Changes in active and latent collagenase in human placenta around the time of parturition. 216 7

1. The interaction between interleukin 1 (IL-1) and the fibrinolytic system in the control of collagen degradation by rabbit chondrocytes has been investigated in a tissue-culture system where cells are grown on a 14C-labelled collagen matrix. 2. Culture of rabbit chondrocytes in the presence of human recombinant IL-1 beta at a concentration of 57pM for 48 h led to the presence of procollagenase but not active collagenase in the medium. The latent collagenase could be activated by incubation with an organomercurial, aminophenylmercuric acetate (APMA). 3. Addition of IL-1 beta to chondrocytes grown on a 14C-labelled collagen matrix did not increase the degradation of the matrix compared to control over a 48 h period. However, in the presence of plasmin (200 micrograms ml-1) or plasminogen (100 micrograms ml-1), IL-1 beta (57 pM) caused almost complete degradation of the collagen matrix. Plasmin or plasminogen alone caused only slight degradation of the collagen matrix. 4. Tissue inhibitor of metalloproteinases (TIMP) or the selective metalloproteinase inhibitor, SC44463, inhibited the degradation induced by IL-1 beta and plasminogen in a concentration-related manner and at concentrations that were correlated with inhibition of collagenase. 5. When concentrations of IL-1 beta which caused only minimal degradation of the matrix in the presence of plasminogen were combined with fibrin (1 microgram ml-1), there was almost total degradation of the matrix by 48 h. 6. These results indicate there is a synergistic interaction between IL-1 and the fibrinolytic system in the degradation of collagen by rabbit chondrocytes in culture.
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PMID:Co-operation between interleukin-1 and the fibrinolytic system in the degradation of collagen by articular chondrocytes. 216 39

Stromelysin is a metalloproteinase that degrades extracellular matrix macromolecules including fibronectin, laminin, collagen IV and proteoglycans. We now report that cycloheximide, an inhibitor of protein synthesis, induces human stromelysin mRNA in fibroblast cultures in a time- and dose-dependent fashion. As determined by Northern hybridization, a 24-h treatment with cycloheximide increased stromelysin mRNA about 20-fold over the control level. In vitro translation or translation in cells after removal of cycloheximide resulted in increased levels of immunoprecipitable stromelysin suggesting that the cycloheximide-induced stromelysin mRNA was functional. Analysis of mRNA stability suggested that the cycloheximide effect is in part due to the increased activation of the stromelysin gene. In contrast to these results, cycloheximide did not induce collagenase mRNA but, rather, prevented its induction by interleukin-1 beta. These data provide evidence for discoordinate regulation of collagenase and stromelysin genes and suggest that a short-lived repressor protein may play a role in the stromelysin gene expression.
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PMID:Cycloheximide induces stromelysin mRNA in cultured human fibroblasts. 216 19

Human fibrosarcoma cells derived from a patient with multiple metastases extensively degrade artificial basement membranes (BM) and secrete interstitial type of collagenase, a proteolytic enzyme responsible for degradation of type I collagen. Exposure of invasive cell line to TGF beta abrogates destruction of BM.TGF beta reduces collagenase activity and stimulates specific metalloproteinase inhibitor (TIMP) in invasive tumor cells. We preassume that TGF beta could play a protective role in tumor invasion.
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PMID:Protective role of transforming growth factor beta (TGF beta) in tumor-induced degradation of basement membranes. 216 65

Interferon-gamma (IFN-gamma) is a lymphokine that activates mononuclear phagocytes. To test the hypothesis that IFN-gamma might have important effects upon the ability of human mononuclear phagocytes to degrade extracellular matrix, we have studied the action of this cytokine on the production of metalloproteinases and the counterregulatory tissue inhibitor of metalloproteinases (TIMP) by the human alveolar macrophage. We have found that IFN-gamma potently and selectively suppresses the lipopolysaccharide-induced production of two metalloproteinases--interstitial collagenase and stromelysin--by 50-90% at doses greater than or equal to 10 U/ml. The synthesis of TIMP and 92-kD type IV collagenase was also diminished by IFN-gamma, but these responses required 50- to 100-fold higher concentrations of the cytokine. All doses of IFN-gamma increased total and secreted protein synthesis slightly, indicating a highly specific effect on metalloenzyme biosynthesis. Inhibition of metalloproteinase expression occurred at a pretranslational level, as evidenced by parallel reductions in enzyme biosynthesis and collagenase-specific steady-state mRNA levels. Interestingly, the effect of IFN-gamma on metalloenzyme production was not readily reversible. Therefore, while IFN-gamma activates the macrophage and renders it tumoricidal, this enhanced function appears to be attained at the expense of the cell's capacity to degrade extracellular matrix.
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PMID:Immune modulation of metalloproteinase production in human macrophages. Selective pretranslational suppression of interstitial collagenase and stromelysin biosynthesis by interferon-gamma. 217 Apr 47

Conditions were established to stimulate human gingival fibroblast explant cultures to synthesize milligram quantities of the metalloproteinase proenzymes, prostromelysin and procollagenase. To stimulate enzyme production, cells were treated with 1 nM recombinant human IL-1 beta for approximately 7 days under serum free conditions. Using a combination of rapid column chromatography steps, approximately 10 milligrams of prostromelysin and 5 milligrams of procollagenase were purified from 1 liter of conditioned media. Prostromelysin electrophoresed as a doublet with molecular weights of 55,57 kD, whereas, procollagenase migrated with slightly lower molecular weights of 52, 54 kD. Both proenzymes were treated with trypsin or aminophenylmercuric acetate to generate active species. The molecular weights of the active enzymes were approximately 10 kD smaller than the proenzymes. Active enzymes were inhibited by metal chelators and the natural metalloproteinase inhibitor, tissue inhibitor of metalloproteinase (TIMP), but not by the serine protease inhibitor, phenylmethylsulfonyl fluoride (PMSF). Activated stromelysin degraded a number of substrates including transferrin, proteoglycan monomer, proteoglycan aggregated with hyaluronic acid, and substance P. By contrast, collagenase degraded interstitial type I collagen and the peptide thioester, Ac-Pro-Leu-Gly-SCH(iBu)Co-Leu-GlyOEt. Identity of both enzymes were confirmed by amino-terminal protein sequence analysis as well as by immunoblot analysis using monoclonal antibodies.
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PMID:Production and purification of prostromelysin and procollagenase from IL-1 beta-stimulated human gingival fibroblasts. 217 90

Peak (1 and 2 d) and healing (3, 6, and 10 d) inflammatory lesions were produced in rabbits by the topical application of the military vesicant, bis(2-chloroethyl)sulfide, commonly called sulfur mustard (SM). SM produces an acute sterile dermal inflammatory reaction with little or no necrosis, except in the epidermis, which dies during the first day. After an animal was killed, its lesions were excised intact, as full-thickness 1.0-cm2 explants. They were then organ-cultured for 3 d in order to maintain the viability of both local and infiltrating cells. The extracellular fluid in each lesion equilibrated with the culture fluid, which was collected daily and analyzed for collagenase and proteoglycanase activities. These metalloproteinase activities were measured after we had i) destroyed the alpha-macroglobulin inhibitors with KSCN, ii) destroyed the tissue inhibitor of metalloproteinases (TIMP) by reduction and alkylation, and iii) activated the latent proteinase activity with aminophenylmercuric acetate (APMA). Hydroxyproline-containing peptides and glycosaminoglycans (GAG) released into the culture fluids were also measured as indicators of local collagenase and proteoglycanase activity within the inflammatory lesions. In general, the levels of both the metalloproteinases and the products of their activity were higher in second- and third-day culture fluids than in first-day culture fluids, and higher in fluids from SM lesions than in those from normal skin. The activated fibroblast was apparently the major cell type producing the collagenase and proteoglycanase. The hydrolysis of collagen and ground substance occurs pericellularly. An excess of inhibitors exists outside the pericellular region. The daily change in culture fluids apparently decreased such inhibitors, so that by the second and third day of culture we could detect the changes in pericellular enzyme activity that were not detectable on the first day of culture. As the inflammatory lesions healed, the extracellular enzyme products (hydroxyproline and GAG) increased more than the enzymes that produced these products. With healing, a decrease occurs in the extravasation of all serum components, especially the large ones such as the alpha-macroglobulin inhibitors. We propose that during healing, the decrease in these inhibitors allows the metalloproteinases to begin the remodeling process, and that during the peak phase of inflammation, these same inhibitors protect extracellular matrix against hydrolysis by such proteinases.
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PMID:Extracellular collagenase, proteoglycanase and products of their activity, released in organ culture by intact dermal inflammatory lesions produced by sulfur mustard. 217 50

Loss of connective tissue integrity occurs in many disease processes, including rheumatoid arthritis and osteoarthritis. Although there is a high incidence of these diseases in the developed world, there is no treatment that prevents the tissue damage that occurs. Several lines of evidence suggest that uncontrolled connective tissue metalloproteinase activity is responsible for the damage, and as a consequence the inhibition of these enzymes has become the target for therapeutic intervention. Several connective tissue metalloproteinases, including collagenase, stromelysin, and gelatinase, together with tissue inhibitors of metalloproteinases (TIMPs), have been described. Because of difficulties in isolating the metalloproteinases in sufficient quantity as pure separate enzymes, however, very little knowledge has accumulated about their detailed biochemistry. For similar reasons the way in which TIMPs inhibit tissue metalloproteinases is not yet fully understood. In this article it is shown how cloning metalloproteinase and TIMP cDNAs can provide information about the structure of these enzyme and inhibitor families and how the cDNAs can be used to generate recombinant cell lines from which enzymes and inhibitors can be readily purified for further studies.
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PMID:The tissue metalloproteinase family and the inhibitor TIMP: a study using cDNAs and recombinant proteins. 219 98

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