EC:3.1.6.4 - FACTA Search

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Query: EC:3.1.6.4 (chondroitinase)
2,039 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A chondroitinase that acts upon chondroitin sulfate C and hyaluronic acid was isolated from Flavobacterium heparinum. This enzyme was seperated from constitutional chondroitinase AC and an induced chondroitinase B also present in extracts of F. heparinum previously grown in the presence of chondroitin sulfates A, B or C. The enzyme acts upon chondroitin sulfate C producing tetrasaccharide plus an unsaturated 6-sulfated disaccharide (delta Di-6S), and upon hyaluronic acid producing unsaturated nonsulfated disaccharide (delta Di-OS). Chondroitin sulfate A is also degraded producing oligosaccharides and delta Di-6S but not delta Di-4S. The chondroitinase C is also distinguished from the chondroitinases B and AC by several properties, such as effect of ions, temperature for optimal activity, and susceptibility to increasing salt concentrations. The substrate specificity of the chondroitinase C is different from that of any other chondroitinase or hyaluronidase described so far.
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PMID:Chondroitinase C from Flavobacterium heparinum. 0 3

A histochemical method for the differentiation of glucosaminoglycans, utilizing bacterial chondroitinase ABC and chondro-4- and -6 sulphatases, and staining with Alcian blue, is presented. The method is applied on human tissues with known glucosaminoglycan content (ganglion cyst, umbilical cord, foetal cartilage, adult cartilage) and the results are compared with the results obtained by staining with Alcian blue at controlled pH levels, with or without prior digestion with bovine testicular hyaloronidase, and the Scott method, utilizing Alcian blue at varying concentrations of MgCl2. It is concluded that chondroitinase ABC digest chondroitin-4 and -6 sulphate and to some extent also hyaluronic acid and dermatan sulphate, but not heparin and keratosulphate.
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PMID:Differetial staining of glycosaminoglycans, utilizing bacterial chondroitinase and chondrosulphatase. 2 13

Acid mucopolysaccharides in mast cell granules were histochemically studied in the lesion of urticaria pigmentosa and in the dermis of normal human skin. Alcian blue and azure A were used to stain mucopolysaccharides. Bromphenol blue was employed for detection of basic proteins. In a further attempt to identify various polyanions, staining was carried out with alcian blue containing various concentrations of electrolytes. Methylation, saponification, and digestion with streptomyces or testicular hyaluronidase, chondroitinase ABC, sialidase, or desoxyribonuclease were also employed. The results obtained are most likely to suggest the presence of hyaluronic acid in mast cell granules.
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PMID:Histochemical demonstration of hyaluronic acid in human dermal mast cells. 5 4

Proteoglycans were identified and localized histochemically and ultrastructurally in normal and hyperplastic arterial intimas in nonhuman primates (Macaca nemestrina). These regions were consistently more alcianophilic than the adjacent medial layers and this alcianophilia was absent after treatment with glycosaminoglycan-degradative enzymes. Ultrastructurally, the intimal intercellular matrix consisted of numerous, irregularly shaped, 200-500-A diameter granules possessing 30--60-A diameter filamentous projections, and these granules were dispersed between collagen and elastic fibers. The granules exhibited a marked affinity for ruthenium red and were interconnected via their filamentous projections. The ruthenium red-positive granules were intimately associated with the plasma membrane of intimal smooth muscle cells and attached to collagen fibrils and elastic fibers. The matrix granules were completely removed after testicular hyaluronidase or chondroitinase ABC digestion but only partially removed after leech hyaluronidase treatment. These results suggest that the matrix granules contain some hyaluronic acid and one or more isomers of chondroitin sulfate. In addition to the large ruthenium red-positive matrix granules, a smaller class of ruthenium red-positive granule (100--200-A diameter) was present within the basement membranes beneath the endothelium and surrounding the smooth muscle cells. Ruthenium red also exhibited an affinity for the surface coat of the smooth muscle cells. The potential importance of proteoglycans in arterial intimal hyperplasia is discussed.
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PMID:Proteoglycans in primate arteries. I. Ultrastructural localization and distribution in the intima. 5 34

The proteoglycans of cartilage are complex molecules in which chondroitin sulphate and keratan sulphate chains are covalently linked to a protein core, forming a polydisperse population of proteoglycan monomers. By interaction with hyaluronic acid and link proteins, the monomers form large macromolecular complexes. In vivo the proteoglycans mainly occur in such aggregates. In the electron microsope, the cartilaginous matrix can be seen to be made up of thin collagen fibrils and polygonal granules about 10-50 nm in diameter Addition of the polyvalent cationic dye Ruthenium Red to glutaraldehyde and osmium tetroxide fixatives yields a dense selective staining of the matrix granules. Following a short digestion of cartilage slices with either of the chondroitin sulphate-degrading enzymes hyaluronidase and chondroitinase or with the proteolytic enzyme papain, the matrix granules were few in number or completely absent and the proteoglycan content, measured as hexosamine, decreased by up to 90%. Similarly, extraction of the cartilage with 4 M guanidine-HCl removed all matrix granules and most of the proteoglycans. From these findings, it can be concluded that the matrix granules represent proteoglycans, most probably in aggregate form, and that Ruthenium Red staining may be used to study the distribution of these macromolecules in thin sections. As a complement to chemical studies on proteoglycan structure, it is also possible to observe and measure individual molecules in the electron microscope after spreading them into a monomolecular layer with cytochrome c. This technique has been applied in investigations on proteoglycans isolated from bovine nasal cartilage and other hyaline cartilages. The molecules in the monomer fractions appeared as an extended central core filament to which about 25--30 side-chain filaments were attached at various intervals. The core filament, averaging about 300 nm in length, was interpreted as representing the polysaccharide binding part of the protein core and the side-chain filaments, averaging about 45 nm in length, as representing the clusters of chondroitin sulphate chains. Statistical treatment of the collected data indicated that no distinct subpopulations existed within the monomer fractions. The electron microscopic results correlated well with chemical data for the corresponding fractions and together with recent observations on various aggregate fractions strongly support present concepts of proteoglycan structure.
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PMID:Electron microscopy of cartilage proteoglycans. 6 24

Patients with the DMC syndrome have been suggested to possess a specific sulfatase abnormality and/or to be deficient in a proteinase cleaving glycoprotein-acid mucopolysaccharide (AMP) linkage. We have previously found in DMC patients an abnormal excretion of urinary AMPs of which hyaluronic acid and chondroitin sulfate (A + C) were oversulfated and keratosulfate and heparan sulfate were undersulfated. Lysosomal acid proteinase, i.e. cathepsin D (EC 3.4.23.5) and neutral proteinase : elastase (EC 3.4.21.11) and cathepsin G were found to be normal in DMC patients. However, alpha 2-macroglobulin in serum was raised. This increase may be associated with a complex formation of alpha 2-macroglobulin with a neutral proteinase released from the cells. Increased levels of chondroitin sulfate N-acetylgalactosamine-6-sulfate sulfatase and sulfamidase and decreased enzymic levels of arylsulfatase A and B (EC 3.1.6.1) were found in leucocytes of DMC patients. The sulfatase activities assayed in the present study support our theory that a specific sulfatase abnormality may exist in the DMC syndrome.
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PMID:Lysosomal (leucocyte) proteinase and sulfatase levels in Dyggve-Melchior-Clausen (DMC) syndrome. 7 86

Treatment of tissue sections with enzymes wich degrade specific types of glycosaminoglycans should provide a means for localizing glycosaminoglycans in tissue sections. The feasibility of this technique was examined by utilizing endogenously labelled glycosaminoglycans in chick and quail embryos. Less than 8% of the total glycosaminoglycans appear to be lost non-specifically during fixation and dehydration. Both Streptomyces hyaluronidase and chondroitinase ABC degraded more than 90% of their respective substrates and demonstrated minimal non-specific extraction of other glycosaminoglycans. The selectivity of chondroitinase ABC for sulphated glycosaminoglycans was substantially increased by raising the pH of the incubation buffer to 8.6. At this pH, chondroitinase ABC degraded negligible amounts of hyaluronic acid. Use of both Streptomyces hyaluronidase and chondroitinase ABC confirmed that embryonic hyaluronic acid binds Alcian Blue under conditions that were previously believed specific for sulphated glycosaminoglycans. We suggest that this may be due to the increased molecular weight of embryonic hyaluronic acid compared to the hyaluronic acid in adult tissues. The results presented suggest that treatment of adjacent sections with buffer, chondroitinase ABC at pH 8.6, and Streptomyces hyaluronidase and subsequent staining with Alcian Blue provides a method for localizing and quantitating glycosaminoglycans in tissue sections.
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PMID:The histochemical specificity of Streptomyces hyaluronidase and chondroitinase ABC. 8 Mar 94

Proteoglycan monomer (D1) and aggregate (A1) preparations were isolated from 4 M guanidinium chloride extracts of the Swarm rat chondrosarcoma. When EDTA, 6-aminohexanoic acid, and benzamidine were present in the solutions, the D1 preparation contained a single component (SO = 23 S), and the A1 preparation contained 30% monomer (SO = 23 S) and 70 percent aggregate (SO = 111 S). In the absence of EDTA, 6-aminohexanoic acid, and benzamidine, the A1 preparations contained only small proteoglycan fragments, indicating that extensive enzymatic degradation had occurred. The composition of the proteoglycan monomer was different from that of proteoglycan monomer preparations from normal hyaline cartilages in that it did not contain keratan sulfate and chondroitin 6-sulfate; only chondroitin 4-sulfate was found. The A1 preparation from the chondrosarcoma contained only one link protein, which was like the smaller (molecular weight of 40,000) of the two link proteins present in A1 preparations from bovine nasal cartilage. When the A1 preparation from the chondrosarcoma was treated with chondroitinase ABC and trypsin and the digest was chromatographed on Sepharose 2B, a complex was isolated which contained the link protein and the segments of the protein core from the hyaluronic acid-binding region of the proteoglycan molecules.
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PMID:Isolation and characterization of proteoglycans from the swarm rat chondrosarcoma. 12 82

35S- as well as 3H-labeled glycosaminoglycans (GAG) produced by cultivated epithelium and fibroblasts of the rabbit cornea were treated with testicular hyaluronidase, leech hyaluronidase and chondroitinase-ABC or -AC. The fractionation-patterns of enzyme-treated GAG were compared with blanks not exposed to enzymes. The epithelial GAG revealed to be generally more resistant to the enzymatic degradation than the GAG synthesized by the fibroblasts, but--depending on the enzyme--in the GAG of both cell types the same fractions were attacked. The decline of the radioactivity in the fractions of enzyme-treated GAG allows the conclusions that both cell types produce relatively small amount of keratan sulfate but mainly chondroitin sulfates with a different degree of sulfation. In addition GAG, not present in the normal cornea, are synthesized: hyaluronic acid chiefly by fibroblasts and probably dermatan sulfate. The possible role of the fibroblastic and epithelial GAG in corneal wound repair is discussed.
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PMID:Biosynthesis of glycosaminoglycans by mammalian corneal epithelium and fibroblasts in vitro. II. Approach to specify the GAG from the two cell types. 12 25

The acidic glycosaminoglycans (AGAG) in normal human kidneys were fractionated on Dowex 1-X2 columns and analysed by electrophoretic separation in three buffers on cellulose acetate membranes and gel filtration on Sephadex G-100 columns, before and after digestion with chondroitinases and streptomyces hyaluronidase. Thin-layer chromatography was also performed to separate glucosamine from galactosamine moieties. Enzymatic digestion combined with electrophoretic characterization indicated that heparan sulfates exist as the main AGAG which accounted for two-fifths of the total AGAG. Hyaluronic acid and dermatan sulfates accounted for one-fourth and one-sixth of the total kidney AGAG, respectively. Chondroitin sulfate isomers (4-sulfate and 6-sulfate) consisted of the residual one-sixth of the total AGAG. An oversulfated chondroitin sulfate was detected in a small amount by demonstration of the unsaturated disulfated disaccharide after digestion with chondroitinase-ABC but not with chondroitinase-AC.
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PMID:Acidic glycosaminoglycans in human kidney tissue. 12 23

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