EC:3.4.24.3 - FACTA Search

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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)

Collagenase cleavage of human Type II and III collagens has been studied using a highly purified preparation of rabbit tumor collagenase. Progress of the reactions in solution was followed by viscometry and the results indicated that under the conditions employed Type III collagen molecules were cleaved at approximately five times the rate of Type II molecules. Cleavage products of the reactions were isolated in denatured form by agarose molecular sieve chromatography. The molecular weights and amino acid compositions of the products demonstrated that Type II and III molecules had been cleaved at the characteristic three-quarter, one-quarter locus, giving rise to a large fragment derived from the NH2-terminal portion of the molecule and a smaller fragment representing the COOH-terminal region. The amino acid sequence at the NH2-terminal portion of the smaller fragment derived from Type II collagen was determined to be Ile-Ala-Gly-Gln-Arg, and the corresponding region from Type III collagen was found to have the sequence Leu-Ala Gly-Leu-Arg. These sequences for alpha1(II) and alpha1(III) chains adjacent to the site of collagenase cleavage along with previous data for alpha1(I) and alpha2 chains indicate that the minimum specific sequence required for collagenase cleavage is Gly-Ile-Ala or Gly-Leu-Ala. Inspection of the available sequence data for collagen alpha chains indicates that the latter sequences are found in at least three additional locations at which collagenase cleavage does not occur. Each of the sequences which are apparently not substrates for collagenase, however, are followed by a Gly-X-Hyp sequence. We suggest, then, that a minimum of five residues in collagen alpha chains COOH-terminal to the cleavage site comprise the substrate recognition site.
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PMID:Cleavage of Type II and III collagens with mammalian collagenase: site of cleavage and primary structure at the NH2-terminal portion of the smaller fragment released from both collagens. 17 19

The collagen from the cuticle of Ascaris lumbricoides was digested by Clostridium histolyticum collagenase [EC 3.4.24.3] in the presence and absence of CaCl2. About 1.2 mumoles of amino groups per mg collagen was liberated when the digestion was performed in the presence of 5 mM CaCl2, whereas about 0.5 mumole of amino groups per mg collagen was liberated by digestion in the absence of CaCl2. In contrast, CaCl2 influenced the extent of hydrolysis of rat tail tendon collagen only slightly. The results suggest that CaCl2 is necessary for the hydrolysis of certain regions in the molecule of Ascaris collagen and that such structures may not be present in mammalian collagens.
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PMID:Action of bacterial collagenase on Ascaris cuticle collagen. 17 53

1. A specific collagenase from the culture medium of rabbit synovial fibroblasts was purified by gel filtration and ion-exchange chromatography. 2. The enzyme was homogenous on polyacrylamide-gel electrophoresis and showed only traces of contaminants when tested in gels with a non-specific antiserum. 3. The rabbit fibroblast collagenase could hydrolyse collagen both in solution and in fibrillar form. Viscometry showed that at 35 degrees C the purified enzyme could hydrolyse greater than 50 nmol of collagen/min per mg of enzyme. 4. The purified collagenase cleaved collagen in solution at either 24 degrees or 35 degrees C into the characteristic 1/4 and 3/4-length fragments. However, as compared with the impure enzyme, the purified enzyme at 35 degrees C had a much decreased capacity to further degrade the initial specific cleavage products. 5. The specific rabbit collagenase had a mol. wt. of approx. 32000 as estimated by sodium dodecyl sulphate-polyacrylamide-gel electrophoresis, and 35000 by gel filtration.
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PMID:Purification and properties of a specific collagenase from rabbit synovial fibroblasts. 17 85

1. Antisera were raised against the collagenase from rabbit synovial fibroblasts and characterized by immunoprecipitation and immunoinhibition reactions. 2. Immunoglobulins from the antisera were potent inhibitors of the action of rabbit collagenase on both reconstituted collagen fibrils and collagen in solution. 3. The antibody-binding fragment, Fab', produced by digesting the IgG (immunoglobulin G) with pepsin, inhibited collagenase activity just as well as whole IgG. 4. A specific antiserum to the rabbit collagenase was raised by a multi-step procedure. An initial antiserum was made by injecting partially purified collagenase as a complex with sheep alpha2-macroglobulin into a sheep. The non-specific antiserum so obtained was used to produce precipitin lines with the purified enzyme, and these lines were used as antigen for the production of the specific antiserum. 5. An IgG preparation from the specific antiserum was a specific and potent inhibitor of the rabbit synovial fibroblast collagenase. Neutral metallo-proteinase activity secreted by the rabbit fibroblasts was not inhibited by the antibody to the rabbit collagenase. 6. Criteria for determination of the specificity of antisera are discussed.
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PMID:Immunochemical studies with a specific antiserum to rabbit fibroblast collagenase. 17 86

Bone morphogenetic activity is transmitted from the residue of a collagenase digest of bone matrix gelatin not only across cellulose acetate membranes but also through an interstitial fluid filled duplex diffusion chamber (a distance 300 + 2,000 mum). Collagenolysis enhances dissociation of the bone morphogenetic property of bone matrix and dissemination among mesenchymal cells proliferating in the host bed surrounding the diffusion chamber. The bone morphogenetic response is associated with secretion of interstitial fluid, enzymes, and fibrin as well as formation of new collagen fibrils beaded with coarse ruthenium red granules in the pores of the cellulose acetate membrane. Membranes with pore sizes too small to accommodate either new collagen fibrils or mesenchymal cell microvilli do not transmit the morphogenetic response.
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PMID:Diffusion of bone morphogenetic activity from the residue of collagenase digested bone matrix gelatin through interstitial fluid. 17 84

The possibility of using allograft collagen for the permanent replacement of lost or damaged connective tissues has been examined in the rat. The cellular components of skin, which are known to be of major importance in allograft rejection, were removed by treating skin with a solution of crystalline trypsin at 15 degrees C. Non-collagenous structures were largely removed by 7 days, but the purification process continued up to 28 days without damage to the collagen fibrils. Dermal collagen allografts, which were implanted intraperitoneally or subcutaneously and biopsied 3-83 days after operation, became recellularized and revascularized without being being resorbed. In contrast to skin allografts, there was no evidence of cellular rejection of the collagen grafts, even when recipient animals had been sensitized to allogeneic skin from the same donor. Densensitization of collagen to collagenase, by treating dermal collagen with solutions of glutaraldehyde at concentrations ranging from 0.001-1.0 per cent, was also investigated in vitro and by implantation. The best results, in terms of preservation of the collagen bundle architecture and graft recellularization without persisting inflammation, were achieved with collaged pre-treated with a solution of 0.01% glutaraldehyde.
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PMID:Histological studies of subcutaneous and intraperitoneal implants of trypsin-prepared dermal collagen allografts in the rat. 17 85

The enzymic solubilisation of insoluble collagen fibrils by bacterial collagenase has been examined employing unlabelled polymeric collagen fibrils (PC), rhodamine labelled fibrils (RB-PC), and fluorescein labelled fibrils (F-PC) as substrates. The presence of the label did not affect the kinetics of enzyme digestion but enabled the solubilized products to be rapidly estimated. The quantity of substrate used was found to play a major role in determining the quantity of peptides solubilised by a given enzyme concentration. It is suggested that in the PC fibrils only a limited number of TC molecules were suitably located to form an enzyme substrate complex with bacterial collagenase. Conditions were found in which the F-PC and RB-PC could be used as substrates in the assay of this enzyme.
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PMID:Insoluble collagen I. The effect of substrate weight on the rate of solubilisation of polymeric collagen fibrils by bacterial collagenase. 17 3

Protein accounted for an average of 8.7% w/w of the hyaluronic acid obtained from rooster comb dermis extracts and three types of peptide constituents appeared to be present. A few collagen-like fibers were closely associated with the hyaluronic acid when samples were examined in the electron microscope and collagenase treatment decreased the intrinsic viscosity from 7000-5000 ml/g to 3900-2700 ml/g. The quantities of collagen present, however, were too small to detect chemically with the methods employed. The major peptide consituent was readily separated from the hyaluronic acid by fractionation in a cesium chloride gradient or by treatment with pronase. The viscosity was decreased by the density gradient procedure but not by the pronase digestion. Repeated fractionation in a cesium chloride gradient decreased the intrinsic viscosity still further and a small peptide constituent with a high glycine and serine content remained associated with a hyaluronic acid. The data suggest that an interaction or entanglement with collagen fibers is responsible for the high viscosity of hyaluronic acid in this tissue extract and that the viscosity of purified hyaluronic acid preparations is dependent upon interactions between adjacent polysaccharide chains. Interactions between the major peptide constituent and polysaccharide chains or the small residual peptide component remaining with hyaluronic acid after extensive purification procedures, however, appear to be involved in some organized structure because the presence of the major peptide constituent minimized the decrease in viscosity that occurred when hyaluronic acid samples were lyophilized.
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PMID:Studies on hyaluronic acid. V. Relationship between the protein content and viscosity of rooster comb dermis hyaluronic acid. 17 5

98% of the collagen in mature connective tissue is in the form of insoluble collagen fibers, consisting of bundles of polymeric collagen (PC) fibrils. The enzymes concerned in connective tissue remodeling degrade PC rather than tropocollagen (TC). TC is the most usual substrate for collagenase assays, and we believe it is essential to employ PC in any study of the activity of collagenolytic enzymes. In order to facilitate the study of enzymic degradation of PC we have labelled PC with fluorescein iso-thiocyanate to produce F-PC fibrils, containing 5 fluorescein labelled epilson-NH2 groups of lysine per TC molecule within the PC. The fluorescent F-PC is degraded at the same rate as PC with the release of hydroxyprolyl peptides but has the great advantage that the solubilised F-peptides can be quantitated by their fluorescent emission. The technique is described in detail employing bacterial collagenase and mammalian collagenase preparations to illustrate the methodology. The advantages of the fluorescent technique over the collagenolytic assay methods currently in use are outlined.
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PMID:Indoluble collagen II. The use of fluorescein labelled polymeric collagen fibrils in a very sensitive assay procedure for enzymes degrading insoluble collagen. 17 6

We have studied cells dispersed with proteolytic enzymes from rheumatoid arthritic synovectomy specimens to determine the cell type(s) responsible for joint destruction. Initially 10-50% of these cells adhered to culture dishes within 24 hr and were of two main types: small, round cells and larger, stellate cells. During 1-4 days of culture, 5-25% had Fc receptors and 25-50% showed brisk phagocytosis. Daily producition, per 10(6) cells of collagenase (EC 3.4.24.3) (after trypsin pretreatment) was up to 70 mug of collagen fibrils lysed per min at 37 degrees (70 units), of prostaglandin (PGE2), up to about 1200 ng, and of lysozyme, up to about 100 mug. Under identical conditions of assay, fibroblasts grown from explants of synovium produced no detectable collagenase or lysozyme, and PGE2 was only 2-4 ng. With the dispersed cell preparations, macrophage markers (Fc receptors and lysozyme) were undetectable after 4 days and PGE2 decreased rapidly after about 7 more days. However, collagenase production continued for 3-25 weeks, and in some cultures, after cell passage. At these later stages, large, slow-growing stellate cells were predominant and could phagocytose carbon particles if incubated for greater than 6-8 hr. Indomethacin (14 muM) inhibited PGE2 but stimulated collagenase production whereas dexamethasone (10 nM) inhibited both. Production of PGE2 and collagenase in large amounts in vitro by these cells suggests that they may be involved in joint destruction in vivo. The precise origin of these synovial cells and the mechanisms responsible for the sustained production of collagenase at a high rate remain unidentified.
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PMID:Production of collagenase and prostaglandins by isolated adherent rheumatoid synovial cells. 17 63

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