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)

1. Rabbit bones in tissue culture synthesize an inhibitor of collagenase during the first 4 days of culture. 2. The inhibitor was purified by a combination of gel filtration, concanavalin A--Sepharose chromatography, ion-exchange chromatography and zinc-chelate affinity chromatography. 3. The purified inhibitor migrated as a single band on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and had a mol.wt. of 28000. 4. The inhibitor blocked the activity of the metalloproteinases collagenase, gelatinase, neutral proteinase III (proteoglycanase), human leucocyte collagenase and gelatinase, but not thermolysin or bacterial collagenase. The serine proteinases plasmin and trypsin were not inhibited. 5. The inhibitor interacted with purified rabbit bone collagenase with 1:1 stoichiometry. 6. The inhibitory activity was lost after incubation for 1 h at 90 degrees C, after treatment with trypsin (250 micrograms/ml) at 37 degrees C for 30 min and after reduction and alkylation.
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PMID:Purification of rabbit bone inhibitor of collagenase. 627 44

Using human articular chondrocytes in monolayer culture as an experimental system, we have been studying mechanisms of control of production and activity of neutral proteases which degrade connective tissue matrices. Soluble factors from cultured human blood mononuclear cells (MCF) or synovial fragment cultures (SF) stimulate the production of collagenase and proteoglycanase by chondrocytes. Chondrocytes also release a collagenase inhibitor (mol. wt. 26-31,000), which is similar to the tissue inhibitor of metalloproteinases (TIMP) synthesized by cultured mammalian tissues and this is reduced in cultures exposed to MCF or SF. Retinol and dexamethasone partially inhibit the factor-stimulated collagenase, but increase the amount of inhibitor, restoring it to control levels in the presence of MCF or SF. The effects of these agents in cellular interactions in vitro will be discussed in relation to their possible roles in the control of connective tissue turnover in vivo.
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PMID:Interactions in connective tissues involving monocyte/macrophages and control of production of proteinases and proteinase inhibitors. 629 11

In addition to releasing collagenase and proteoglycanase activity, rabbit articular chondrocytes in monolayer culture released into the culture medium, latent, neutral enzyme activity which when activated by p-aminophenylmercuric acetate degraded fluorescein-labeled polymeric rat tail tendon Type I collagen and the tropocollagen TCA and TCB fragments of human Type II collagen into smaller peptides at 37 degrees C. Enzyme activity was abolished if p-aminophenylmercuric acetate-activated culture medium was preincubated with 1.10-phenanthroline, a metal chelator. Thus, articular chondrocytes in monolayer culture are capable of producing neutral proteinases which acting together can result in complete degradation of tendon and cartilage collagen to small peptides.
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PMID:'Gelatinase-like' activity from articular chondrocytes in monolayer culture. 629 87

Dispersed cells from human amnion and chorion were cultured with and without relaxin. The addition of this hormone caused an increased secretion of both collagenase and plasminogen activator into the culture medium over a 32 h period, but had no effect on proteoglycanase or beta-glucuronidase secretion. The increase in plasminogen activator was dose-related to the amount of relaxin added in vitro. The results show that the fetal membranes are a novel target tissue for relaxin in the human, and suggest that relaxin in vivo may cause a similar release of collagenolytic enzymes, leading to the weakening and eventual rupture of the fetal membranes.
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PMID:Relaxin stimulates collagenase and plasminogen activator secretion by dispersed human amnion and chorion cells in vitro. 630 28

Human articular chondrocytes in culture produced large amounts of specific mammalian collagenase, gelatinase and proteoglycanase when exposed to dialysed supernatant medium derived from cultured human blood mononuclear cells (mononuclear cell factor) or to conditioned medium, partially purified by fractionation with ammonium sulphate (60-90% fraction), from cultures of human synovial tissue (synovial factor). Human chondrocytes and synovial cells also released into culture medium an inhibitor of collagenase of apparent molecular weight about 30 000, which appeared to be similar to the tissue inhibitor of metalloproteinases synthesised by tissues in culture. The amounts of free collagenase inhibitor were reduced in culture media from chondrocytes or synovial cells exposed to mononuclear cell factor or synovial factor. While retinol inhibited the production of collagenase brought about by mononuclear cell factor or synovial factor, it restored the levels of inhibitor, which were reduced in the presence of mononuclear cell factor or synovial factor. Dexamethasone markedly reduced the production of collagenase by synovial cells, while only partially inhibiting factor-stimulated collagenase production by chondrocytes. Addition of puromycin as an inhibitor of protein synthesis reduced the amounts of both collagenase and inhibitor to control or undetectable levels.
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PMID:Effects of retinol and dexamethasone on cytokine-mediated control of metalloproteinases and their inhibitors by human articular chondrocytes and synovial cells in culture. 631 Dec 83

Human articular chondrocytes in culture synthesise collagenase and neutral proteoglycanase in response to addition of a 12-17 kDa protein produced by cultured human monocytes. This factor copurifies with interleukin 1, as assessed by lymphocyte activating factor activity, on gel filtration chromatography and isoelectric focusing. The interleukin 1 and chondrocyte-stimulating activities are destroyed by pretreatment of the material with phenylglyoxal. The same materials also promote the release of glycosaminoglycans from cultures of intact bovine nasal cartilage. The proteoglycanase activity release from chondrocytes appears to be a metalloproteinase because it is inhibited by EDTA and not by phenylmethylsulphonyl fluoride (PMSF), and because detection of its activity is dependent on the presence of 4-aminophenylmercuric acetate. Human osteoblast-like cells do not respond to this factor by increased proteinase production, but are stimulated to produce prostaglandins. These results suggest that interleukin 1 has activities upon non-immune cells which promote the degradation of connective tissue matrices. Human osteoblasts do not synthesise neutral collagen- and proteoglycan-degrading enzymes and thus are unlikely to be directly responsible for the matrix degradation which occurs during bone resorption.
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PMID:Stimulation by human interleukin 1 of cartilage breakdown and production of collagenase and proteoglycanase by human chondrocytes but not by human osteoblasts in vitro. 632 Sep 2

Inhibitors of the mammalian metalloproteinases, collagenase, proteoglycanase and gelatinase were isolated from bovine cartilage (extracts and culture medium) and bovine amniotic fluid and serum. These inhibitors either bind or do not bind to concanavalin-A--Sepharose, with Mr (gel filtration) of about 30 000 and 20 000, respectively. Cartilage and chondrocyte culture media contained only concanavalin-A-binding inhibitors whereas cartilage extracts contained only a non-binding inhibitor: serum and amniotic fluid contained both forms of inhibitory activities. In moist biochemical respects, particularly in their abilities to inhibit metalloproteinases, all of the inhibitors were found to be similar. It is concluded that the forms of the inhibitors that differ in Mr may be closely related to the tissue inhibitor of metalloproteinases (TIMP) previously purified from rabbit and human sources. These findings help to clarify other studies on collagenase inhibitors and support the concept that TIMP-like inhibitors may be important in the control of connective tissue degradation.
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PMID:Metalloproteinase inhibitors from bovine cartilage and body fluids. 632 Nov 74

Pig articular cartilage, overlaid with a minced preparation of synovium from the same joint, underwent extensive matrix degradation during a two-week culture period. This degradation was associated with de novo synthesis by the synovium of specific neutral proteoglycan- and collagen-degrading enzymes. Both enzymes exhibited neutral pH optima, and were inhibited by serum and the metal ion chelators EGTA and 1,10-phenanthroline. The neutral proteoglycanase cleaved the core protein of isolated proteoglycan. The effects of some anti-inflammatory drugs on synovial enzyme production and cartilage metabolism were investigated. The steroids, dexamethasone and prednisolone, inhibited production of both enzymes whereas the non-steroidal anti-inflammatory drugs (NSAID's), flurbiprofen and indomethacin, slightly increased medium enzyme levels. Flurbiprofen and indomethacin had no effect on the extent of synovium-mediated cartilage degradation as assessed histologically. Inhibition by the steroids of synovial collagenase production correlated with inhibition of cartilage collagen breakdown, whereas inhibition of synovial proteoglycanase production did not prevent extensive proteoglycan breakdown. Experiments using radiotracer techniques indicated that dexamethasone, whilst partially inhibiting synovium-mediated proteoglycan degradation, severely inhibited cartilage proteoglycan synthesis thus resulting in net proteoglycan loss.
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PMID:Studies on the release of proteolytic enzymes during synovium-induced cartilage breakdown in vitro and the actions of anti-inflammatory drugs. 632 20

Traumatised normal pig synovium has been cultured with normal pig articular cartilage for 14 days. The breakdown of cartilage collagen and proteoglycan during culture was accompanied by the appearance in the culture medium of collagenase and proteoglycanase respectively which appeared to be derived from the synovium. There was good correlation between culture medium levels of collagenase and cartilage collagen breakdown, but the relationship between synovial proteoglycanase and cartilage proteoglycan breakdown was not so clear-cut. Corticosteroids consistently inhibited breakdown of cartilage collagen but not proteoglycan, and inhibited the production of the proteolytic enzymes. High concentrations of aurothiomalate (10(-3)M) inhibited collagen breakdown and partially reduced culture medium enzyme levels. Non-steroidal antiinflammatory agents such as flurbiprofen and indomethacin had no effect on the breakdown of collagen or proteoglycan and tended to increase culture medium enzyme levels. This culture system may be used to provide further information concerning the action of antirheumatic drugs.
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PMID:Biochemical and pharmacological studies on synovium-cartilage interactions in organ culture. 704 93

Primitive biliary cells are known to migrate from the ductal plate into the mesenchyme during human intrahepatic bile duct development, and this migration process is essential for normal development of intrahepatic bile ducts. However, its molecular mechanism is unknown. Matrix proteinases play an important role in cell migration during cancer invasion and organ development. In this study, we therefore investigated in situ expression of matrix metalloproteinases (MMP) and tissue inhibitors of MMP (TIMP) during human intrahepatic bile duct development, using 32 human fetal livers. We also examined in situ expression of trypsinogen/trypsin, chymotrypsinogen/chymotrypsin, and cathepsin B, which are matrix proteinases and activators of MMP. MMP-1 expression was noted in the ductal plate and migrating primitive biliary cells. MMP-2, MMP-3, and MMP-9 were expressed in the ductal plate. TIMP-1 and TIMP-2 were expressed in the ductal plate and migrating primitive biliary cells. Trypsinogen/trypsin, chymotrypsinogen/chymotrypsin, and cathepsin B were also expressed in primitive biliary cells. These data suggest that MMP, trypsinogen/trypsin, chymotrypsinogen/chymotrypsin, and cathepsin B play a critical role in biliary cell migration during human intrahepatic bile duct development by degrading extracellular matrix proteins. The data also suggest that MMP inhibitors (TIMP-1 and TIMP-2) and MMP activators (trypsin, chymotrypsin, and cathepsin B) play an important role in biliary cell migration. The coordinated expression of MMP, MMP inhibitors, and MMP activators may be necessary for the normal development of human intrahepatic bile ducts.
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PMID:Expression of matrix proteinases during human intrahepatic bile duct development. A possible role in biliary cell migration. 748 84


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