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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 search was undertaken for bacteria which degrade chondroitin sulfate in nature and to find bacteria with a usefully high rate of chondroitinase (ChSase) productivity. First, 253 ChSase-producing bacteria were obtained from aquatic and land environments in Japan by aerobic and anaerobic screening methods. Identification according to Bergey's Manual of Determinative Bacteriology or Bain and Shewan (1968) permitted assignment of the majority of the isolates to seven genera, Aeromonas, Vibrio, Flavobacterium, Beneckea, Proteus, Micrococcus, and Arthrobacter. Next, ChSase productivities of all the isolates were compared with those of two established ChSase-producing stock strains, Proteus vulgaris NCTC 4636 and Flavobacterium heparinum ATCC 13125. As a result, special attention was given to production by a strain of Aeromonas sp. of large quantities of extracellular ChSase-AC. None of the isolates from the current study displayed significant ChSase-ABC productivity. Finally, ChSase-AC was prepared from the culture fluid of the Aeromonas strain by fractional precipitation with ammonium sulfate, chromatography on phospho-cellulose and diethylaminoethyl-cellulose, and gel filtration on Sephadex G-200. It was concluded that the Aeromonas strain may represent a profitable source of the enzyme ChSase-AC.
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PMID:Chondroitinase-producing bacteria in natural habitats. 80 22

Hyaluronate levels change dramatically during morphogenesis of various tissues and organs. Morphological detection of the exact temporal and spatial distribution patterns of hyaluronate may help to elucidate its role in morphogenesis. Since no specific direct method for visualizing hyaluronate with the light or electron microscope is currently available, we have developed a morphological probe by exploiting the high-affinity interaction of cartilage proteoglycan with hyaluronate. The core protein of this proteoglycan consists of a region that binds specifically to hyaluronate with a high association constant, and a region to which the majority of sulfated polysaccharide chains are covalently attached. The polysaccharide chains were removed by treatment with chondroitinase ABC, and the core protein, labeled with rhodamine, was used as the probe. This fluorescent probe binds reversibly and specifically to [3H]hyaluronate in a binding assay using ammonium sulfate precipitation of the core protein. The probe has been used to visualize the cell surface hyaluronate of rat fibrosarcoma cells, 3T3 cells, and SV-40 transformed 3T3 cells, three cell types with significantly different amounts of cell surface-associated hyaluronate.
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PMID:Fluorescent morphological probe for hyaluronate. 258 Aug 46

The immunoregulatory effect of Catrix on in vitro and and in vivo antibody production was examined in mice. Catrix, an acidic mucopolysaccharide complex, contains glycosaminoglycans including chondroitin sulfate. Catrix-S, a soluble derivative, was found to enhance T-dependent and T-independent antibody responses in vivo in a dose-dependent manner, with 100 mg intraperitoneally or 10 mg intravenously being optimal. Lower doses were found to be less effective or inhibitory. In vitro, the enhancing activity of Catrix-S on proliferative response was additive with that of dextran sulfate and lipopolysaccharide but not with chondroitin sulfate C. This immunoaugmenting activity appears to be related to the chondroitin sulfate component of Catrix-S, because both have similar effects on in vivo and in vitro antibody responses and because chondroitinase ABC inactivates activity. The inhibitory activity of Catrix-S could be separated from its stimulatory effects by ammonium sulfate precipitation or by fractionation according to molecular weight. The immunoaugmenting effect was present in the 0-30% saturated ammonium sulfate precipitate and in the 5-10,000-m.w. and 30-100,000-m.w. fractions. The ability of Catrix-S to enhance antibody responses in nude as well as in normal mice, and antibody responses to T-independent as well as to T-dependent antigens, indicates that its activity is due in part to a direct effect on B cells and/or to an indirect effect mediated by macrophages.
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PMID:Immunoregulatory effects of catrix. 284 89

Recently, we described a bovine aortic phosphatase which we called PCM-phosphatase (polycation modulable) because its activity in vitro can be modulated by polycations such as polylysine and histone-H1 (Di Salvo J, Gifford D, Kokkinakis A. Modulation of aortic protein phosphatase activity by polylysine. Proc Soc Exp Biol Med 177:24-32, 1984). We We suspected that polycationic modulation might be inhibited by polyanionic glycosaminoglycans. Accordingly, an aortic anionic substance was purified by sequential steps including (a) heating aortic extracts at 90 degrees C, (b) precipitation of protein with (NH4)2 SO4, and (c) anionic-exchange chromatography on a Mono Q HR 5/5 column using the Pharmacia fast protein liquid chromatography system. Electrophoresis (polyacrylamide-agarose) of the purified substance revealed one band which stained metachromatically with toluidine blue; however, no staining occurred with Coomassie blue. Electrophoretic mobility increased following proteolytic digestion of the substance with papain. The substance produced concentration-dependent reversal of polylysine-mediated inhibition of myosin light chain dephosphorylation, and it also reversed polylysine-mediated stimulation of phosphorylase phosphatase activity expressed by PCM-phosphatase. Its ability to inhibit or reverse polycationic modulation was abolished after incubation with either chondroitinase AC or chondroitinase ABC. Based on these properties the substance was identified as a chondroitin proteoglycan. Commercially available glycosaminoglycans (heparin and chondroitin sulfates) also reversed polycationic modulation. The results show that modulation of phosphatase activity may be significantly modified by naturally occurring glycosaminoglycans. These studies may also have an important bearing on the purported roles of phosphatase(s) and glycosaminoglycans in calcification of soft tissues.
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PMID:Glycosaminoglycans and a newly purified aortic chondroitin proteoglycan block polycationic modulation of protein phosphatase activity. 302 91

A high-performance liquid chromatography method for analyzing disaccharides derived from chondroitin sulfate glycosaminoglycans has been developed which employs a Whatman Partisil-10 PAC amino-cyano column and an acetonitrile/methanol/ammonium acetate solvent to resolve disulfated, monosulfated, and unsulfated disaccharides in a chromatographic run of less than 20 min. The single known trisulfated chrondroitin disaccharide can be eluted in an alternate solvent system containing the same mobile phase components in different proportions. Disaccharides were prepared for chromatography from glycosaminoglycans and proteoglycans of known compositions by digestion with chondroitinase ABC, with the exception of king crab cartilage glycosaminoglycan which was incubated sequentially with hyaluronidase and chondroitinase ABC. Disaccharides were extracted from the digestion mixtures in 80% ethanol, dried over nitrogen, resuspended in the HPLC solvent, and chromatographed at a flow rate of 1 ml/min. Unsaturated disaccharides in the column eluate were detected by continuous ultraviolet absorbance monitoring at 232 nm; alternatively, fractions were collected and assayed for uronic acid content or radioactivity. By utilizing the HPLC technique in conjunction with chondroitinase ABC and AC digestion and sulfatase hydrolysis, the epimeric structures of chondroitin sulfates E and H were confirmed. With this technique, rapid and reproducible analyses of chondroitin sulfate disaccharides generated from mouse mast cell proteoglycan and from glycosaminoglycans of squid cranial cartilage, shark skin, hagfish skin, and hagfish notocord were in close agreement with compositions obtained by other techniques.
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PMID:Analysis of polysulfated chondroitin disaccharides by high-performance liquid chromatography. 643 72

We have isolated and characterized the proteoglycan isoforms of versican from bovine brain extracts. Our approach included (i) cDNA cloning and sequencing of the entire open reading frame encoding the bovine versican splice variants; (ii) preparation of antibodies against bovine versican using recombinant core protein fragments and synthetic peptides; (iii) isolation of versican isoforms by ammonium sulfate precipitation followed by anion exchange and hyaluronan affinity chromatography; and (iv) characterization by SDS-polyacrylamide gel electrophoresis and Coomassie Blue staining or immunoblotting. Our results demonstrate that versican V2 is, together with brevican, a major component of the mature brain extracellular matrix. Versicans V0 and V1 are only present in relatively small amounts. Versican V2 migrates after chondroitinase ABC digestion with an apparent molecular mass of about 400 kDa, whereas it barely enters a 4-15% polyacrylamide gel without the enzyme treatment. The 400-kDa product is recognized by antibodies against the glycosaminoglycan-alpha domain and against synthetic NH2- and COOH-terminal peptides. Our preparations contain no major proteolytic products of versican, e.g. hyaluronectin or glial hyaluronate-binding protein. Having biochemical quantities of versican V2 available will allow us to test its putative modulatory role in neuronal cell adhesion and axonal growth.
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PMID:Versican V2 is a major extracellular matrix component of the mature bovine brain. 962 74

Bovine chromogranin A (CgA), together with secreted alkaline phosphatase (SEAP) as an external control for apical secretion were expressed in MDCK cells to test if CgA contains sorting signals for polarized secretion. CgA, SEAP, and the endogenous apical marker GP80 were secreted 75-80% apically. Basolateral secretion of SEAP was inhibited 40% by ammonium chloride. Sulfate labeling and digestion with chondroitinase ABC revealed a 120 kDa proteoglycan-CgA and 75 kDa CgA. Inhibition of proteoglycan synthesis did not affect apical secretion of CgA. As CgA is not N-glycosylated, we used tunicamycin to test if cellular N-glycosylation is required for apical sorting. Tunicamycin reversed the polarity of secretion of CgA to the basolateral side. These results suggest that CgA contains dominant apical and recessive basolateral sorting information.
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PMID:Polarized secretion of the regulated secretory protein chromogranin A. 1075 75

Chondroitinase has been used as an important tool in the study of the structure, function and distribution of glycosaminoglycans for many years. Recently, the enzyme has been reported to be a potential enzyme for chemonucleolysis, an established treatment for intervertebral disc protrasion. In this paper, a chondroitinase had been purified from the culture supernatant of Aeromonas sobria YH311 using a simple purification procedure of ammonium sulfate precipitation, QAE-Sephadex A50 ion exchange chromatography and Sephadex G-150 gel filtration. The immobilization of purified chondroitinase using sodium alginate or cellulose as carriers has also been studied. The chondroitinase obtained from Aeromonas sobria YH311 was purified 55-fold to 95.3% pure, the specific activity of the purified enzyme was 31.86u/mg and the yield was 37%. The molecular weight of chondroitinase from Aeromonas sobria YH311 was determined by SDS-PAGE to be 80kD, which was almost the same as those chondroitinase AC from Arthrobacter aurescens, Aeromonas liquefaciens and Flavobacterium heparinum. But its isoelectric point was 4.3 - 4.6, which was far lower than the microbial chondroitinase AC. After the immobilization on sodium alginate or cellulose, the properties of chondroitinase changed greatly. The optimum temperature and pH of the free enzyme were 50 degrees C and 7.0 respectively, and about 10% activity remained after heat treatment at 80 degrees C for 20 minutes, and 47% activity remained after two weeks storage at 4 degrees C. The chondroitinase immobilized on sodium alginate had the optimum temperature and pH of 40 degrees C and 7.0 respectively, about 50% activity remained after 80 degrees C heat treatment for 120 minutes and 50% remained after 30 days storage at 4 degrees C. The chondroitinase immobilized on cellulose had the optimum temperature and pH of 70 degrees C and 6.0 respectively, and more than 70% activity remained after heat treatment at 80 degrees C and 30 days storage at 4 degrees C. The yield of the immobilization was very low, with 18.56% for alginate and 18.86% for cellulose.
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PMID:[Purification and immobilization of chondroitinase from Aeromonas sobria YH 311]. 1596 93

A novel in-gel endoglycosidase technique to study oligosaccharides with graphitized carbon LC-MS has revealed differences in the sulfation profile between the linkage and repeat regions of chondroitin sulfate on aggrecan. Bovine articular cartilage aggrecan was isolated in a composite agarose PAGE gel or diluted in ammonium acetate buffer and was digested overnight with chondroitinase ABC. Including a chemical release/reduction protocol after digestion, we could separate and detect three differentially sulfated chondroitin sulfate disaccharides of the repeat region (DeltaUA1-3GalNAc0/4/6S-ol) from the three differentially sulfated linkage region hexasaccharides (DeltaUA1-3GalNAc0/4/6Sbeta1-4GlcAbeta1-3Galbeta1-3Galbeta1-4Xylitol). Graphitized carbon LC-MS in the negative ion mode was able to resolve isomeric disaccharides and linkage region hexasaccharides. Specific MS2 and MS3 enabled us to confirm the sulfate location on all oligosaccharides by comparing their fragmentation with sulfated disaccharide standards. The presence of unsulfated, 6-sulfated, and 4-sulfated linkage regions was correlated with positive Western blot staining with the respective CS linkage region neoepitope antibodies (1B5, 3B3, 2B6) on digested aggrecan. Our strategy of examining linkage region and repeat region profiles is applicable to screening GAGs from various biological samples in order to detect differences between normal and disease states.
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PMID:Graphitized carbon LC-MS characterization of the chondroitin sulfate oligosaccharides of aggrecan. 1741 Oct 12

Glycosaminoglycans (GAGs) including chondroitin sulfate (CS) and chondroitin sulfate/dermatan sulfate (CS/DS) copolymers are anionic straight chain polysaccharides. They are galactosamine containing GAGs (galactosaminoglycans) having wide range of applications in pharmaceutical, cosmetic and food industries. This article reviews techniques to isolate and characterize these galactosaminoglycans from animal and poultry tissues. Patent based information is also discussed. Cartilaginous tissues are the major source of CS consisting entirely of D-glucuronosyl-N-acetylgalactosamine repeating disaccharide units, in which the galactosamine is sulfated at C4 or C6. In contrast, most galactosaminoglycans in non-cartilaginous connective tissues (e.g. skin and tendon) are CS/DS copolymers comprised of varying proportions of D-glucuronosyl-N-acetylgalactosamine and L-iduronosyl-N-acetylgalactosamine. Tissues are digested with proteinase (e.g. papain) to liberate GAGs, which are fractionated to isolate and purify galactosaminoglycans. Common techniques used for fractionation of GAGs include: precipitation with different concentrations of ethanol; solubilization of GAG precipitated as GAG-quarternary ammonium compound complexes with different concentrations of NaCl; anion exchange chromatography and gel filtration chromatography. Purified galactosaminoglycans are examined by various methods including chondroitinase digestion, high performance liquid chromatography and electrophoresis. Histological methods are used to localize galactosaminoglycans in tissues. The patent information on the CS hydrolase and ultraviolet irradiation may be useful for the preparation of CS oligosaccharide.
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PMID:Extraction, isolation and analysis of chondroitin sulfate glycosaminoglycans. 2065 51


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