Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.6.12 (chondroitinase)
 2,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to clarify the biological characteristics of rat mammary tumors induced by 7,12-dimethylbenz-[a]-anthracene (DMBA), histochemical and immunohistochemical studies were performed. Two types of luminal spaces were observed within the tumor. In one type, the lumen was surrounded by eosinophilic columnar cells which were strongly reactive for soybean agglutinin (SBA) but weakly stained with keratin antibodies. In the luminal spaces, substances positive for PAS, dialyzed iron ferrocyanide or alcian blue and resistant to mucopolysaccharidase were occasionally observed. Ultrastructurally, the luminal surface was characterized by the presence of microvilli and tight junctions. In the other type, the lumen was often found in highly cellular foci and surrounded by pale, polygonal or elongated cells which were weakly stained with keratin antibodies but not SBA. The luminal spaces presented a peculiar structure filled mainly with mucoid substances sensitive to hyaluronidase, chondroitinase ABC and heparitinase, and the inner surface of the spaces was surrounded by basement membrane components: laminin, fibronectin and type IV collagen. The results of the present study therefore showed that DMBA-induced mammary tumor consists, partly, of a structure resembling human adenoid cystic carcinoma.
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PMID:Immunohistochemical studies of DMBA-induced rat mammary tumors. 245 33

An analysis of the structure of chicken vitreous humor after brief homogenization of the tissue was performed. Electron micrographs prepared after rotary shadowing with platinum showed the presence of two distinct fibrils. The collagen fibril was coated by glycosaminoglycan which could be removed by chondroitinase ABC digestion. In addition, individual molecules of tenascin were observed wrapped around some of the collagen fibrils. A second beaded fibril was present and several fine filaments were observed to extend from each bead. The beaded fibril is formed by the overlap of these filaments, and beaded fibrils were observed in either a "closed" or an "open" form dependent on whether all of the filaments are brought together to form the overlap. A schematic diagram is presented for the structure of the beaded fibril. The potential relationship of the beaded fibril to the zonular fibrils and the elastin microfibrils is briefly discussed.
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PMID:Vitreous humor of chicken contains two fibrillar systems: an analysis of their structure. 246 20

We have demonstrated previously that chick embryo fibroblasts synthesize and secrete a large chondroitin sulfate proteoglycan (designated PG-M) that binds to fibronectin. We now report the possibility that PG-M interactions with cell surfaces can modulate cell-substrate adhesion. When PG-M was added to the medium, various types of trypsinized cells failed to adhere not only to fibronectin-coated substrates but also to collagen- or vitronectin-coated substrates. Adhesion of the cells to laminin or glycyl-arginyl-glycyl-aspartyl-serine derivatized serum albumin (arginyl-glycyl-aspartic acid-containing molecules with no capacity to bind PG-M) was also inhibited by PG-M. Treatment of the proteoglycan with either proteolytic enzymes or chondroitinase abolished its inhibitory effects on the cell adhesion. These results suggest that direct binding between PG-M and fibronectin, if any, is not a cause of the inhibition by PG-M and that only the proteoglycan form is responsible for the activity. When the immobilization of added PG-M to available plastic surfaces of coated dishes was blocked by pretreating the dishes with serum albumin, the inhibitory effect of PG-M was abolished, suggesting that the immobilized fraction of PG-M can act as a cell adhesion inhibitor. In immobilized form, both cartilage chondroitin sulfate proteoglycan (designated PG-H) and chondroitin sulfate-derivatized serum albumin also inhibited cell adhesion. In contrast, heparan sulfate proteoglycan form LD and heparan sulfate-derivatized serum albumin had far lower inhibitory activities, indicating that the active site for the interaction between cells and PG-M is on the chondroitin sulfate chains.
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PMID:Regulation of cell-substrate adhesion by proteoglycans immobilized on extracellular substrates. 247 Jul 39

Fibrocartilaginous regions of bovine deep flexor tendon were treated with chondroitinase-ABC and trypsin in order to extract proteoglycans from the extracellular matrix and thereby investigate the contribution of proteoglycan and collagen organization to tissue material properties. Chondroitinase-ABC digestion of tendon specimens for 24 h resulted in extraction of 60% of tissue glycosaminoglycan and leaching of the degraded large proteoglycan from the tissue residue. The totally degraded core protein of the small dermatan sulfate proteoglycan remained with the tissue residue, indicating that it is specifically associated with the tissue residue and that this association is not dependent on the glycosaminoglycan chains. Treatment of residues with trypsin after chondroitinase-ABC digestion depleted the specimens of proteoglycan. Bulk swelling tests on enzyme-extracted specimens showed that the distinct swelling properties of the fibrocartilaginous regions of the distal flexor tendon could be partially accounted for by elevated levels of proteoglycan. Swelling tests also showed that the distinct collagen organization of this region contributes significantly to the tissue's material properties. These results suggest that the fibrocartilaginous organization and composition of the articulating layer of distal tendon are adapted for mechanical requirements unique to this site, which receives compressive and frictional loads in addition to tensile loads.
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PMID:Effects of chondroitinase-ABC on proteoglycans and swelling properties of fibrocartilage in bovine flexor tendon. 249 83

The distribution of sulphated proteoglycans within the stromas of three patients (A,B,C) suffering from macular corneal dystrophy was studied using the specific dye Cuprolinic Blue in a 'critical electrolyte concentration' method. The corneas were examined using transmission electron microscopy and A and C were further studied by low-angle synchroton X-ray diffraction. Sera from all three patients were analyzed for the presence of keratan sulphate using a monoclonal antibody in an enzyme-linked immunosorbent assay. The serum from Patient A contained keratan sulphate, but the chains were thought to be shorter or less sulphate in their sera. Electron microscopy showed many electron-transparent lacunae randomly distributed throughout the specimens. The average collagen fibril diameter was normal but there were differences in packing between the specimens. Specimen A was closely-packed with most collagen fibrils in contact with their neighbours. Specimens B and C showed fewer regions of close packing; in most of the tissue the interfibrillar spacing appeared normal. Staining with Cuprolinic Blue revealed an unusual distribution of proteoglycans in some parts of the interfibrillar matrix, particularly in A, with 'small' proteoglycans running exclusively parallel to the collagen fibrils. Furthermore in A, and to a lesser extent in B and C, some lacunae were filled with clusters of abnormal sulphated proteoglycan filaments (of various sizes) which were chondroitinase ABC susceptible. Clearly defined regions, both within the lacunae and elsewhere, failed to stain with Cuprolinic Blue; this suggests an absence of sulphated proteoglycans within these areas. Equatorial X-ray diffraction of the wet tissues (A and C) gave values for the mean interfibrillar centre-to-centre separation of 43 +/- 2 nm in Specimen A and 52 +/- 3 nm in Specimen C. The differences observed in the serum keratan sulphate levels, the packing of the collagen fibrils and the distribution of chondroitin/dermatan sulphate proteoglycans confirm the heterogeneity that exists within the macular corneal dystrophies.
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PMID:Macular corneal dystrophy: the macromolecular structure of the stroma observed using electron microscopy and synchrotron X-ray diffraction. 251 72

To study the molecular structure and function of bovine skin proteodermatan sulfate, on a determinant by determinant basis, several monoclonal antibodies to this molecule have been produced and characterized. Based on the results of a preliminary immunogenetic analysis of 4 inbred mouse strains, SJL/J (H-2s) mice were immunized for the fusions. Ten hybridomas were produced and the monoclonal antibodies from four of these were selected for further investigation. Employing an ELISA inhibition assay, none showed any detectable affinity for bovine collagen types I, II, III, or IV, bovine fibronectin or chondroitin or dermatan sulfate glycosaminoglycans. Each monoclonal antibody bound the chondroitinase ABC-derived protein core and none was significantly inhibited by proteinase digests of the intact molecule suggesting that the epitope of each contains a protein component. The results of competitive binding ELISA assays and immunoblots of the cyanogen bromide cleavage products of proteodermatan sulfate indicate that the 4 antibodies recognize at least 3 distinct antigenic determinants on this molecule. Immunohistochemical methods located the antigen in the dermis of bovine skin and revealed that a change in proteodermatan sulfate distribution occurs during skin development.
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PMID:Production and characterization of monoclonal antibodies to bovine skin proteodermatan sulfate. 257 62

Collagen types I and III were located by immunofluorescence procedures in the aorta and coronary arteries of the rat. Type I collagen was most prevalent in the adventitia of the aorta with only small amounts present in the intima and media. Type III collagen appeared to be a significant component in the media of the aorta and also in the adventitia of both blood vessels. The intima and media of the coronary arteries did not stain strongly for either type I or III collagen. Neither staining procedure was altered with preincubation of the sections with hyaluronidase or chondroitinase ABC. These studies indicate that type III collagen is a major component of the adventitia which has previously not been recognized by immunohistochemical techniques, possibly due to masking of collagen staining with glycosaminoglycans.
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PMID:Immunolocalization of collagen types I and III in the arterial wall of the rat. 265 90

The major proteoglycan in bovine parietal pericardium is a low molecular weight dermatan-sulfate proteoglycan. It possesses structural and immunologic characteristics similar to those of the small proteoglycan found in tendon. We demonstrate that digestion of purified pericardial proteoglycan with low levels of V8 protease results in the liberation of the glycosaminoglycan chain and of a 40 kDa resistant fragment. A similar 40 kDa fragment can be obtained by V8 protease digestion of the proteoglycan deglycosylated by chondroitinase ABC. Although the protein core size of the pericardial proteoglycan is similar to that of tendon PG II, the size of the glycosaminoglycan chain liberated from the former is smaller. The pericardial proteoglycan and its V8 protease products reacted with an anti-PG II antiserum by immunoblotting. The anti-PG-II antibody localized in the pericardial tissue by the immunoperoxidase technique. The presence of intrachain disulfide bonds in the structure of pericardial proteoglycan core protein and V8 resistant fragment was demonstrated by their decreased electrophoretic mobility after disulfide reduction. Digestion of pericardial proteoglycan with Cathepsin C resulted in a rapid liberation of the glycosaminoglycan chain from the core protein, indicating that its attachment site was very close to the amino terminus. Ultrastructural examination of pericardial tissue utilizing Cuprolinic Blue revealed a periodic association of the proteoglycan with the d/e band on the collagen fibrils. Electron microscopic immunohistochemical studies confirmed the perifibrillar association of pericardial proteoglycan. The present data demonstrate that, although the pericardial proteoglycan possesses some unique structural features, it shares structural and immunological characteristics to place it in the category of the small PG II family.
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PMID:Bovine pericardial proteoglycan: biochemical, immunochemical and ultrastructural studies. 267 26

Three types (T1, T2, T3) of proteoglycan (PG) filaments, as demonstrated by cuprolinic blue (CB) under critical electrolyte concentration method in the epithelial-stromal interface of the guinea pig lateral prostate, were characterized cytochemically by using a number of glycosaminoglycan(GAG)-degrading enzymes and nitrous acid. The results showed that T1 filaments located in basement membranes of the epithelium, endothelium, and smooth muscle cells, were removed by nitrous acid, heparitinase, and pronase but resistant to chondroitinase (Ch)-ABC and Ch-AC, heparinase, neuraminidase, and Streptomyces (S) hyaluronidase. The T1 filaments, therefore, contain heparan sulfate. The T2 filaments closely linked to collagen fibrils were removed by Ch-ABC, Ch-ABC plus S-hyaluronidase, and pronase but were resistant to nitrous acid, heparitinase, heparinase, neuraminidase, and S-hyaluronidase. These show that T2 filaments are rich in dermatan sulfate. The T3 filaments in the interstitial spaces and on the surface of fibroblasts were removed by Ch-ABC, Ch-AC, and pronase but were resistant to heparitinase, heparinase, hyaluronidase, neuraminidase, and nitrous acid. They are, therefore, rich in chondroitin sulfate.
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PMID:Cytochemical characterization of cuprolinic blue-stained proteoglycans in the epithelial-stromal interface of the guinea pig lateral prostate. 271 Jun 91

The monoclonal antibody 75d7, specific for type XII collagen (Sugrue, S.P., Gordon, M.K., Seyer, J., Dublet, B., van der Rest, M., and Olsen, B. R. (1989) J. Cell Biol., in press), was used to characterize the intact form of type XII collagen from chick embryo leg tendons. On an immunoblot of a 6% polyacrylamide gel of tendon extracts, one sharp band is recognized by the antibody at Mr = 220,000, while two fuzzy and poorly resolved bands are seen at Mr = 270,000 and Mr = 290,000. By immunoprecipitation of radiolabeled tendon culture media and electrophoresis of the precipitated material, bands with the same mobilities are observed, indicating that type XII collagen is not proteolytically processed in the extracellular space. Type XII collagen was extracted from tendons with 1 M NaCl in a Tris-HCl buffer and partially purified by concanavalin A-Sepharose and gel permeation chromatographies, using dot immunoblots to monitor the purification. Fractions highly enriched in bacterial collagenase-sensitive proteins with the same electrophoretic properties as type XII collagen were obtained. These fractions did not stain with Alcian blue and neither they nor the immunostained type XII collagen were affected by chondroitinase ABC digestion, indicating that type XII collagen is not a proteoglycan. A disulfide-bonded trimeric CNBr peptide was isolated by affinity chromatography on an antibody column and further purified by gel electrophoresis. Its NH2-terminal amino acid sequence was shown to be unique, demonstrating that type XII collagen is a homotrimer [alpha 1 (XII)]3. After bacterial collagenase digestion, both the immunopurified radiolabeled preparation and the purified tendon extract fraction showed by gel electrophoresis the presence of a large disulfide-bonded, 3 x 190-kDa, collagenase-resistant domain. Rotary shadowing and electron microscopy of the purified type XII fraction demonstrated that the molecule has the structure of a cross consisting of a 75 nm collagenase-sensitive tail, a central globule, and three 60 nm arms each ending in a small globule. After heat denaturation and renaturation, only a very large globule can be seen, attached to the triple helical tail. These results show that type XII collagen has a unique structure and is different from the other matrix constituents described so far.
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PMID:The structure of avian type XII collagen. Alpha 1 (XII) chains contain 190-kDa non-triple helical amino-terminal domains and form homotrimeric molecules. 275 5


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