Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Neutrophils contain a number of proteinases active at neutral pH which are able to degrade extracellular matrices. We have determined the contribution of the major neutral proteinases to human neutrophil-mediated degradation of glomerular basement membrane type IV collagen in an in vitro model of immune complex-induced injury. Studies with proteinase inhibitors showed that with intact neutrophils stimulated by immune complexes trapped within the basement membrane, approximately 70% of the degradation was due to serine proteinases and 30% to metalloproteinases. Identical results were obtained with cell-free medium containing neutrophil granule contents. Elastase accounted for almost all the digestion by serine proteinases with a minimal contribution by cathepsin G. All the metalloproteinase activity was due to gelatinase rather than collagenase, and purified gelatinase was also shown to degrade basement membrane collagen. Hence, gelatinase has activity against type IV collagen and may be able to degrade collagens not cleaved by specific collagenases.
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PMID:Gelatinase contributes to the degradation of glomerular basement membrane collagen by human neutrophils. 283 58

Human neutrophils, when stimulated with phorbol myristate acetate or fMet-Leu-Phe in the presence or absence of cytochalasin B, released metalloproteinases that catalytically inactivated the plasma serine proteinase inhibitor, alpha 1-antitrypsin. Inactivation, measured as loss of elastase inhibitory capacity, was accompanied by cleavage of a Mr 4,000 peptide from the COOH-terminus. Cleavage of alpha 1-antitrypsin by cell supernatants was inhibited by EDTA, o-phenanthroline, and DTT, but not by inhibitors of serine or thiol proteinases. Gelatinase and collagenase were separated from the medium of stimulated neutrophils. Both preparations cleaved and inactivated alpha 1-antitrypsin, with cleavage occurring close to the reactive center, at the Phe-Leu bond between positions P7 and P6. Cleavage by purified gelatinase was very slow and could account for only a minor fraction of the activity of neutrophil supernatants. The collagenase preparation was more active. However, the unusual cleavage site, and the ability of fMet-Leu-Phe-stimulated neutrophils to cleave alpha 1-antitrypsin without releasing collagenase, suggests that collagenase is not responsible for cleavage by the cells, which, by implication, is due to an as yet uncharacterized metalloenzyme. Our results demonstrate that by releasing metalloproteinases, neutrophils could proteolytically inactivate alpha 1-antitrypsin at sites of inflammation. This provides an alternative to the previously documented mechanism of inactivation by neutrophil-derived oxidants.
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PMID:Cleavage and inactivation of alpha 1-antitrypsin by metalloproteinases released from neutrophils. 284 59

A potent polypeptide inhibitor of mammalian collagenases was purified to homogeneity from medium conditioned by bovine aortic smooth muscle cells maintained in culture. This inhibitor was purified by a series of molecular sieve and heparin-Sepharose chromatographic procedures; it had an apparent Mr of 28,500 and was a major protein secreted by the smooth muscle cells. It was found to be active against several mammalian collagenases including those obtained from rabbit and human fibroblasts and a tumor-specific type IV collagenase. In contrast, it had minimal inhibitory activity for bacterial collagenase and was inactive against the serine proteases plasmin and trypsin. The inhibitor shared many characteristics with tissue inhibitor of metalloproteinases including the ability to irreversibly inhibit susceptible proteinases, heat and acid resistance, and sensitivity to trypsin degradation and reduction-alkylation. A polyclonal rabbit antiserum with blocking activity which recognized the Mr 28,500 protein was obtained. This inhibitor, which is likely produced by bovine vascular smooth muscle cells in vivo to protect the collagen matrix of blood vessels, may play an important role in pathological conditions associated with alteration of collagen metabolism in tissues.
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PMID:Purification and characterization of a collagenase inhibitor produced by bovine vascular smooth muscle cells. 284 2

Collagenase is synthesized and secreted by stimulated rabbit fibroblasts as a proenzyme that must be proteolytically cleaved to yield catalytically active species. The calcium ionophore A23187 has provided new insights into the regulation of collagenase activation cascade by living cells. A23187, at concentrations of 10-40 ng/ml, induced expression of collagenase and stromelysin mRNA and the secretion of procollagenase of 57 and 53 kDa and prostromelysin of 51 kDa. Interestingly, it also stimulated activation of procollagenase to active forms of 47 and 43 kDa. The concentrations and treatment times required for induction of gene expression and activation indicated that they were independent events. Active collagenase constituted up to 16% of the total collagenase present in medium conditioned by A23187-treated cells. When grown on a collagen substrate, A23187-treated cells degraded collagen in a spatially localized manner. In cells treated with agents that induce procollagenase only, collagenase was localized in the perinuclear Golgi area; however, in A23187-treated cells, collagenase was located in widely dispersed granules, suggesting different intracellular pathways for collagenase before, during, and after activation. Addition of serine, thiol-, and metalloproteinase inhibitors with A23187 to rabbit fibroblasts inhibited conversion of procollagenase to its active form to varying degrees, suggesting that enzymes in these classes are involved in a cascade of proteolytic events leading to collagenase activation.
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PMID:Collagenase expression and endogenous activation in rabbit synovial fibroblasts stimulated by the calcium ionophore A23187. 284 41

Collagenase activity in the bronchoalveolar lavage (BAL) of patients with adult respiratory distress syndrome (ARDS) was measured against Type I collagen (17 patients) and against Type III collagen (13 patients). Serine protease activity was also measured against Type III collagen (13 patients). Type I collagenase activity was detectable in 12 of 17 and Type III collagenase was detectable in 12 of 13 patients with ARDS. The 10 control subjects had no detectable Types I or III collagenase activity. Total and differential white cell counts were analyzed in the lavage fluid. Although the total counts did not differ between patients with ARDS and control subjects, the percentage of neutrophils was increased more than 25-fold and the percentage of macrophages was reduced almost 10-fold in the ARDS patients. Serial collagenase activity was followed in 1 ARDS survivor. In this patient Type III collagenase activity peaked before the Type I collagenase activity or serine protease activity reached their maximums. Both the latter enzyme activities paralleled the total recoverable cells in the BAL.
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PMID:Collagenase in the lower respiratory tract of patients with adult respiratory distress syndrome. 298 85

The crucial role of non-plasminogen dependent serine proteinases is tissue invasive and cytolytic functions of Walker 256 cancer cells has been documented using a rat urinary bladder invasion and a 125I-labelled fibroblast cytolysis assay. The invasive capacity of these cancer cells was abrogated by non toxic concentrations of the serine proteinase inhibitors, diisopropylfluorophosphate and phenylmethylsulfonylfluoride, but not by metallo or cysteine proteinase inhibitors. Although tumour cell collagenase activity and plasminogen activator were demonstrated, these proteolytic enzymes were not essential in these in vitro assays. These results suggest that different categories of proteinases play specific roles in the complicated process of cancer invasion.
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PMID:Role for different cell proteinases in cancer invasion and cytolysis. 299 66

In the transition from proliferation to hypertrophic cell zones in the growth plate, there is an increase in chondrocyte volume and a corresponding decrease in collagen content to accommodate the enlarging cells. It is postulated that collagenase accounts for this collagen loss. To test this hypothesis, tibial growth plates were obtained from normal rats, rachitic rats deficient in vitamin D and phosphate, and rats after 48 and 72 h of healing from rickets. Collagenase was quantitated by a pellet assay based on the release of solubilized collagen from the endogenous insoluble collagen in the tissue homogenates. A fourfold greater collagen release and a concomitant sixfold greater hypertrophic cell volume were measured in rachitic growth plates compared with normal age-matched controls. During healing of rickets, collagenase activity and hypertrophic cell volume returned almost to control levels. Rachitic growth plates were dissected into the juxtaepiphyseal 1/3 and the juxtametaphyseal 2/3. The latter portion contained greater than 95% of the hypertrophic cells and 86% of the collagenase. The collagen-degrading activity was extracted from this region and was shown to be a true collagenase by its production of typical A fragments of tropocollagen produced by collagenase action. The enzyme was activated by aminophenylmercuric acetate and trypsin and was inhibited by EDTA, 1,10-phenanthroline, and a tissue inhibitor of metalloproteinases from human articular cartilage. Inhibitors of aspartic, cysteine, and serine proteases had no effect. Micropuncture fluids aspirated from rachitic cartilage contained latent collagenase activity, indicating an extracellular localization. Negative tests for hemoglobin in the rachitic cartilage samples indicated that there was no contamination by capillaries and that this was not a source of collagenase. It is concluded that extracellular collagenase accounts for the loss of cartilage matrix in the hypertrophic zone, and that this process may be distinct from that of capillary invasion.
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PMID:Localization of collagenase in the growth plate of rachitic rats. 299 64

The tissue-destructive proteinases of B16-BL6 melanoma cells from C57BL/6 mice and subcellular fractions were examined. Cancer cell organelles were isolated following nitrogen cavitation with the use of sucrose density gradient centrifugation. Serine, cysteine, and metalloproteinases were assayed with the use of radiolabeled proteins and synthetic substrates. Tumor-induced red blood cell lysis was quantitated by measurement of the release of isotope from 59Fe-labeled red blood cells (RBC) cocultivated with melanoma cells; the RBC were from Wistar rats. Enzyme inhibitors with specificity toward different classes of proteinases were used in the above assays to categorize the enzymes responsible for substrate degradation. Results indicated that intact melanoma cells, cell organelles, and cytosol contain proteinases that can degrade collagen and gelatin and lyse normal RBC. Melanoma plasma membranes are highly enriched in collagenase, gelatinase, cysteine proteinase, plasminogen activator, and cytolytic activity. The inhibition of tumor collagenolytic, gelatinolytic, and cytolytic activities by EDTA and 1,10-phenanthroline but not by diisopropyl fluorophosphate and N alpha-p-tosyl-L-lysine chloromethyl ketone indicates that metalloproteinases are the active enzymes in these assays. Minocycline, a synthetic tetracycline with demonstrable inhibitory activity with other mammalian collagenases, also inhibited melanoma collagenolytic and cytolytic activities.
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PMID:Diversity of melanoma plasma membrane proteinases: inhibition of collagenolytic and cytolytic activities by minocycline. 299 28

A metalloproteinase inhibitor present in human rheumatoid synovial fluid was purified by a combination of heparin-Sepharose chromatography, concanavalin A-Sepharose chromatography, ion-exchange chromatography and gel filtration. The Mr of the purified inhibitor was 28000 by SDS/polyacrylamide-gel electrophoresis and 30000 by gel filtration. The inhibitor blocked the activity of the metalloproteinases collagenase, gelatinase and proteoglycanase, but not thermolysin or bacterial collagenase. The serine proteinase trypsin was not inhibited. The inhibitory activity was lost after treatment with trypsin (0.5 micrograms/ml) at 37 degrees C for 30 min, 4-aminophenylmercuric acetate (1 mM) at 37 degrees C for 3 h, after incubation for 30 min at 90 degrees C and by reduction and alkylation. These properties suggest that the inhibitor closely resembles the tissue inhibitor of metalloproteinases ('TIMP') recently purified from connective-tissue culture medium.
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PMID:Purification of a metalloproteinase inhibitor from human rheumatoid synovial fluid. 300 Mar 52

Although the fibrosis observed during chronic liver injury is the result of a complex process, the striking accumulation of collagen in end stage liver disease has provoked interest in the mechanisms that regulate both collagen production and degradation in the diseased liver. The present studies have examined the cell interactions that may be important in the regulation of collagen degradation. Although minimal amounts of interstitial collagenase activity were noted in cultures of normal hepatocytes and sinusoidal cells, the co-cultures of these cells in the presence of lipopolysaccharide showed a substantial increase in collagenase activity. When the hepatocytes were obtained from rats that had been treated with carbon tetrachloride in vivo, the enhanced activity seen in the co-cultures did not require the addition of lipopolysaccharide. Further characterization of this interaction suggested that the increase in collagenolytic activity was partially due to the elaboration of soluble factors by the hepatocyte, which stimulated collagenase production by the sinusoidal cell population. Elaboration of collagenase activity by the sinusoidal cells was inhibited by cycloheximide, suggesting that protein synthesis was required. The proteolytic activity was abrogated by inhibitors of metalloproteinases but not by serine or thiol proteinase inhibitors. The degradation products of type I collagen were typical of the expected products seen with vertebrate collagenases. Thus, it appears that the increased collagenolytic activity detected in this co-culture system is attributable to the production of interstitial collagenase by the sinusoidal cell population. Such cell-cell interactions may play an important role in the maintenance of normal connective tissue structure of the liver during disease processes.
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PMID:Stimulation of interstitial collagenase in co-cultures of rat hepatocytes and sinusoidal cells. 300 4


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