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)

A neutral proteinase secreted by rabbit synovial fibroblasts in parallel with specific collagenase was partially purified by ion-exchange chromatography. At pH 7.6 this proteinase degraded 35S-labelled bovine nasal proteoglycan and azo-casein. The enzymic activity was inhibited by EDTA, 1,10-phenanthroline and serum, whereas di-isopropyl phosphorofluoridate and soya-bean trypsin inhibitor had little effect. By gel filtration the apparent mol.wt. of the enzyme was 25000. The fibroblast neutral proteinase was compared with the proteoglycan-degrading neutral proteinases of rabbit polymorphonuclear-leucocyte granules. Two distinct activities were found in the granules: one was inhibited by soya-bean trypsin inhibitor and the other by EDTA. The proteoglycan-degrading proteinases of rabbit fibroblasts and polymorphonuclear leucocytes at acid pH also were examined. Both cathepsin D and a thiol-dependent proteinase contributed to the degradation of proteoglycan at pH 4.5.
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PMID:Proteoglycan-degrading enzymes of rabbit fibroblasts and granulocytes. 3 Apr 51

The ultrastructural identification and characterization of lung proteoglycans was studied using the polycationic dye, ruthenium red. Treating lung parenchyma with the detergent Triton X-100 increased epithelial permeability and allowed the dye to penetrate alveolar walls and stain the alveolar basement membrane and lung collagen. Ruthenium red stained numerous 10- to 40-nm granules concentrated at the lamina surface of basement membrane and attached to the major doublet collagen band. The granules attached to collagen were digested by chondroitinase ABC and papain, indicating that they represent proteoglycan aggregates containing chondroitin or dermatan sulfate. Granules observed on the alveolar basement membrane were resistant to digestion by collagenase and by all glycosidases, suggesting that heparin or heparan sulfate is the predominant glycosaminoglycan in epithelial basement membrane. Ruthenium red in association with tannic acid also stained a fine network of 3- to 10-nm filaments in which collagen was enmeshed, forming the interfibrillar matrix. This network was resistant to collagenase and glycosidase digestion but was removed after papain digestion, suggesting that it was a protein or glycoprotein that did not contain glycosaminoglycans. These methods have allowed visualization of lung proteoglycans and have identified a structure that does not contain glycosaminoglycan that is intimately associated with collagen. This technique can now be applied to explore the potential role of proteoglycans in lung development and in restructuring the lung in various disease states.
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PMID:Ultrastructural localization and characterization of proteoglycans in the pulmonary alveolus. 9 9

Two insoluble non-collagenous glycoprotein fractions (A and G) have been separated from puppy rib cartilage, following extraction of most of the proteoglycan and digestion of the insoluble residue with purified collagenase. After reduction, alkylation and extraction with sodium dodecylsulfate most of each protein is solubilized. Gel electrophoresis of solubilized A or G shows the presence of either one or two bands and gel chromatography shows both high and low molecular weight peaks. The production of a low molecular weight electrophoresis band from the high molecular weight Sephadex fraction indicates that there is aggregation and disaggregation of sub-units in sodium dodecylsulfate. Both A and G are high in aspartate plus glutamate and have a low hydroxyproline content. The insoluble A and G both contain hexose, uronic acid, galactosamine, glucosamine and a small amount of sialic acid, but they differ in their contents of hexose and six amino acids. They both form single bands in CsCl gradients but they differ in density. Electron microscopy shows that both insoluble glycoprotein fractions stain with lead, ruthenium red, or alcian blue plus phosphotungstate and that G contains many fine filaments. Material with the same appearance and staining properties was found to occur on the surface of collagen fibres in the undigested cartilage residue.
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PMID:Insoluble non-collagenous cartilage glycoproteins with aggregating sub-units. 16 54

Gross, light microscopic, and electron microscopic examination of the rabbit corneal destruction produced by experimental Pseudomonas aeruginosa infections revealed a combination of acute inflammation and liquefaction necrosis of the cornea. Degeneration of the epithelial cells and the start of polymorphonuclear leukocyte infiltration of the cornea occurred initially. These changes were followed by loss of the epithelium, degeneration and loss of the keratocytes and endothelium, loss of the characteristic weblike pattern of the proteoglycan ground substance, dispersal of ultrastructurally normal collagen fibrils, extensive accumulation followed by degeneration of polymorphonuclear leukocytes, and accumulation of plasma proteins and fibrin in the necrotic cornea. Histochemical examination of the cornea suggested a loss of the proteoglycan ground substance but not of collagen. Rabbit corneas injected with Clostridium histolyticum collagenase showed gross and cellular changes similar to those observed during the pseudomonal infections; however, histochemical examination suggested a loss of collagen, and electron microscopy revealed ultrastructurally abnormal collagen fibrils. The results support the idea (i) that a bacterial or host-derived collagenase is not required for extensive corneal damage during a P. aeruginosa corneal infection, and (ii) that a P. aeruginosa corneal infection may severly damage the cornea by producing extensive corneal edema and by causing the loss of the corneal proteoglycan ground substance, thus resulting in dispersal of undamaged collagen fibrils, weakening of the cornea, and subsequent descemetocele formation and corneal perforation by the anterior chamber pressure.
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PMID:Rabbit corneal damage produced by Pseudomonas aeruginosa infection. 16 2

A collagen complex from bovine nasal cartilage was prepared by extraction of the tissue with 3M-MgCl2 solutions, by using two different procedures. When it was compared with calf skin acid-soluble tropocollagen by polyacrylamide-gel electrophoresis, the 3M-MgCl2-soluble cartilage collagen in the complex appeared to be predominantly type I in nature, consisting of both alpha1 and alpha2 chains. The soluble cartilage collagens were digested with purified bacterial collagenase, and the soluble digests were fractionated on Sepharose 4B. Hydroxyproline-free proteoglycan was isolated in the excluded volume of the column eluate, and this was found to be an aggregate which could be dissociated to link proteins and proteoglycan subunit by equilibrium-density-gradient centrifugation in a CsCl-4M-guanidinium chloride gradient. Interaction with calf skin-soluble tropocollagen was studied by CM-cellulose chromatography. The link-protein system did not interact, but proteoglycan from the bottom of the gradient did interact. In addition, when proteoglycan subunit was allowed to interact with collagen, there was a preferential binding to the alpha2 and beta12 components, and this effect was also observed with the proteoglycan material obtained from the collagenase digests of 3M-MgCl2-soluble cartilage collagen complexes. However, specificity for alpha2 and beta12 chains was not exhibited by chondroitin sulphate glycosaminoglycan, and it is therefore concluded that preference for alpha2 and beta12 chains is a function of the intact proteoglycan structure.
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PMID:The isolation of collagen-associated proteoglycan from bovine nasal cartilage and its preferential interaction with alpha2 chains of type I collagen. 17 71

Primary cultures of normal human skin fibroblasts were examined for glycosaminoglycan content. Heparan sulfate was found in the growth medium of these cells, in fractions obtained by sequential collagenase and trypsin treatments, and in the remaining intact cells. Heparan sulfate was found to be the major sulfated glycosaminoglycan of the trypsin fraction but appeared as a smaller proportion of the collagenase fraction. The heparan sulfate of the growth medium, the collagenase fraction, and the trypsin fraction appeared to be proteoglycan while intracellular material appeared to be mainly free polysaccharide. The collagenase fraction is thought to be representative of "matrix" material produced by the cells, while the trypsin fraction may represent external cell surface material. The trypsin fraction heparan sulfate polysaccharide was relatively homogeneous in size with an average molecular weight of approximately 40,000 relative to a chondroitin sulfate standard. It was also relatively homogeneous in sulfate content, containing an average of 0.8 sulfate groups per disaccharide repeating unit. Approximately 50% of this was N-sulfate.
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PMID:Heparan sulfate of skin fibroblasts grown in culture. 17 4

Proteoglycan complexes from collagenase [EC 3.4.24.3]-indigestible materials of bovine heart valves were extracted with 4 M guanidinium chloride, purified by ion-exchange column chromatography in a urea-containing solution, then fractionated by density-gradient centrifugation under dissociative conditions. Electrophoretic characteristics and enzymic susceptibility of the density-gradient fractions revealed that the glycosaminoglycans constituting the proteoglycan complexes in this indigestible materials were mainly dermatan sulfate in the top three fractions, and dermatan sulfate and chondroitin sulfates in the bottom fraction; a minor constituent which was common to all the fractions was hyaluronic acid. A gel-like substance (Fr. Ig) at the top of the gradient, amounting to about 25% of the loaded dry sample, contained only a trace of hydroxyproline (less than 1%) and was composed of proteodermatan sulfate, glycoprotein, and a small amount of hyaluronic acid. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analyses of Fr. Ig with 2-mercaptoethanol showed that the major part of the proteins in this gel-like substance was cross-linked by disulfide bridges. Chromatography of Fr. Ig on Sepharose 4B in buffered 4 M guanidinium chloride containing 2-mercaptoethanol, together with the electrophoretic patterns of the resulting fractions, suggested that proteodermatan sulfate was not associated with hyaluronic acid through covalent bonds. The amino acid composition of Fr. Ig was very similar to that reported in the literature for "dermatan sulfate-protein complex", and "structural glycoprotein" or "acidic structural protein".
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PMID:Proteoglycan complexes from bovine heart valve. Fractionation by density-gradient centrifugation and gel filtration under dissociative conditions. 18 67

Bone matrix and tendon are compared in terms of their carbohydrate and non-collagenous protein composition. The collagen content of both tissues was similar (90-91%), but bone matrix had at least three times as much sialic acid (0.28%) as tendon (0.08%). Smaller differences were found in the analysis of hexoses and hexosamines. After digestion with bacterial collagenase, about 9% of the total protein from both tissues was non-diffusible on dialysis, and this contained only 0.15% (bone) and 0.7% (tendon) of the original hydroxyproline; recovery of sialic acid was 86-87%. The collagenase-resistant soluble material amounted to about 9% (bone matrix) and 5% (tendon); the insoluble residues were 1 and 4% respectively. There were clear differences in the carbohydrate contents of the digests, but the amino acid compositions were similar. When the soluble digests were chromatographed on DEAE-cellulose, the elution profiles indicated the presence in each tissue of a variety of glycoproteins and a proteoglycan fraction, and showed clearly that an acidic glycoprotein corresponding to bone sialoprotein was not present in tendon.
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PMID:A comparison of bone matrix and tendon with particular reference to glycoprotein content. 18 11

In advanced osteoarthritis, all of the cartilaginous components are lost from the joint surface. Although mechanisms exist for proteoglycan degradation, there is not known to be any system for removal of the collagen. This study suggests that the loss of the collagen components may be a function of articular cartilage collagenase. The enzyme in normal human cartilage is bound to an inhibitor and appears to be present in very small amounts. Attempts to demonstrate collagenase activity in ground human articular cartilage or in its lysosomal fraction were unsuccessful. 7-Day cartilage tissue cultures also failed to demonstrate the presence of the enzyme; but the same culture fluid, incubated with trypsin, showed significant degradation of collagen, suggesting that trypsin destroyed the inhibitor. 7-Day culture fluids were then chromatographed on a heparin-charged Sepharose 4B affinity column that had been activated with cyanogen bromide. This removed the inhibitor, and the chromatographed fluid from osteoarthritic cartilage released 42% of the incorporated counts of the collagen substrate, whereas normal cartilage released 10.1% and a trypsin control, 6.4%. Electrophoresis of the degradation products of the enzyme-collagen complex incubated at 37 degrees C revealed breakdown was complete to small dialyzable fragments, while at 25 degrees C larger fragments were split off.
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PMID:Collagenase and collagenase inhibitors in osteoarthritic and normal cartilage. 18 66

No significant inhibition of purified rheumatoid synovial collagenase was found when this enzyme was assayed in the presence of porcine or human cartilage proteoglycans. Reaction mixtures containing up to twice the amount of proteoglycan compared to that of collagen, w/w, had little effect on collagen degradation as judged by the reconstituted [4C]collagen fibril assay and polyacrylamide gel electrophoresis. Proteoglycans were not degraded by the synovial collagenase preparation. Although the human collagenases derived from rheumatoid synoviam, gastric mucosa, skin and granulocytes showed some reduction in activity when exposed to aggregated proteoglycans at high concentrations, disaggregated proteoglycans had no inhibitory effect. It is concluded that cartilage proteoglycans do not directly inhibit human collagenases in vitro, but in vivo they may provide some physical barriers which might limit the accessibility of the enzyme to its collagen substrate.
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PMID:Effect of cartilage proteoglycans on human collagenase activities. 19 Oct 88


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