Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The glycosaminoglycan (GAG) content of rabbit skin, oral mucosa, and cultured [3H]-glucosamine-labeled dermal and submucosal fibroblasts was compared. Skin contained predominantly dermatan sulfate (DS) and a small amount of hyaluronic acid (HA), whereas mucosa contained primarily keratan sulfate (KS) and smaller quantities of HA and DS. Culture medium from dermal and submucosal fibroblasts contained GAGs co-electrophoresing with DS, HA, and chondroitin sulfate (CS), although the relative proportions of these GAG differed. CS isolated from dermal and mucosal fibroblast culture medium co-electrophoresed with chondroitin 4-sulfate (C4-S) on cellulose acetate, whereas dermal medium CS was resistant to digestion by chondroitinase ABC, and mucosal medium CS was chondroitinase ABC-susceptible. The pericellular matrix of dermal fibroblasts contained primarily DS and C4-S/C6-S, as confirmed by chondroitinase ABC digestion; the corresponding fraction of mucosal fibroblasts contained HS and a GAG co-electrophoresing with a C6-S standard, yet resistant to digestion by chondroitinase ABC. Thus the GAG content of dermal and mucosal fibroblasts differed both qualitatively in terms of the type of GAG secreted into the culture medium and pericellular matrix, and quantitatively, in terms of the relative proportions of these GAGs in both fractions. These differences support the concept of distinctive fibroblastic subpopulations in skin and mucosal tissue, inasmuch as the cells were subjected to identical culturing conditions.
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PMID:Distinctive fibroblastic subpopulations in skin and oral mucosa demonstrated by differences in glycosaminoglycan content. 319 6

The synthesis of extracellular [35S]-SO4- and [3H]-glucosamine-labelled glycosaminoglycan (GAG) was studied in confluent human gingival fibroblast cultures in vitro. The differential synthesis of the total chondroitin sulphate/dermatan sulphate (CS/DS) and heparan-sulphate (HS) fraction was measured following chondroitinase-ABC digestion, nitrous-acid treatment and column chromatography on Sephadex G50. Control cultures synthesized a CS/DS fraction that represented 78 per cent of the total [35S]-SO4-GAG; the residual 22 per cent was heparan sulphate. Similar cultures were labelled with [3H]-glucosamine and the proportions of a high molecular-weight hyaluronic acid (HA) and proteoglycan fractions measured by gel-filtration HPLC after papain and hyaluronidase digestions. The HA fraction represented 66 per cent of the total isotope incorporated in control cultures. GAG chains released on treatment with papain (24 per cent of the total label incorporated) were of apparent molecular weight 17-20 kDa. All cultures exposed to Bacteroides gingivalis W50 outer membrane at concentrations between 2 and 50 micrograms ml-1 displayed a decrease in the CS/DS fraction and a reciprocal increase in the HS. However, the proportion of HA synthesized was slightly enhanced with a reciprocal decrease in the proteoglycan (papain-digestible) fraction. There was no alteration in the molecular weight of the papain-digestion products or the size distribution of the hyaluronic-acid fraction.
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PMID:The effect of the outer membrane fraction of Bacteroides gingivalis W50 on glycosaminoglycan metabolism by human gingival fibroblasts in culture. 325 24

The effect of ascorbate on the proteoglycans synthesized by rabbit articular chondrocytes was studied in first- and third-passage cultures for 12 and 26 days total duration, respectively. L-Ascorbate (0.2 mM) was added daily to half of the flasks after attachment of the cells. The cultures were labeled with Na2[35S]O4 or [14C]-glucosamine and [3H]-proline. Proteoglycans were isolated from the media and pericellular matrices by dissociative extraction and associative density gradient centrifugation. There was a large decline in the amount of proteoglycan synthesized between early and late cultures. Ascorbate increased the DNA content, amount of radiosulfate incorporated into glycosaminoglycans per microgram of DNA, and the proportion of labeled proteoglycan in the pericellular fraction of both short- and long-term cultures. The proteoglycans of the media and matrices of all cultures, with and without ascorbate, eluted as aggregates under associative column chromatographic conditions. The proteoglycans of 26-day cultures exhibited a higher degree of polydispersity in size than those of the short-term culture and contained small amounts of keratan (2-5%) and dermatan sulfate (4-8%) as assessed by keratanase and chondroitinase digestions, respectively. The effect of ascorbate, therefore, was to increase the amount of proteoglycan formed and to direct it into matrix deposition rather than to alter its quality.
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PMID:Stimulation of matrix formation in rabbit chondrocyte cultures by ascorbate. 2. Characterization of proteoglycans. 337 5

An in vitro model is presented for the study of glycosaminoglycans in human skin. The synthesis of six glycosaminoglycan species in both dermis and epidermis was measured by D-[3H]glucosamine labelling. Punched biopsies (epidermis + entire dermis) of 3 mm in diameter were cultured at 37 degrees C in 5% carbon dioxide-95% air. When the label was added 18 h after explantation, the incorporation started immediately, and for all glycosaminoglycans the time-dependent incorporation was linear for 16 h. The experimental variation was minimized by expressing the measurements in epidermis "per explant" and in dermis "per mg of wet explant". A ratio to dermal hydroxyproline did not improve the precision. Most of the variation arose "before" isolation and separation of the glycosaminoglycans. The labelled products were macromolecules and were converted to small molecules by chondroitinase ABC + heparinase. The total incorporation in dermis was 2 1/2 times higher than in epidermis. Hyaluronic acid was the predominant synthesized product in dermis, and hyaluronic acid and heparan sulphate were the predominant products in epidermis. The proportions (%) in dermis/epidermis were as follows: hyaluronic acid, 61/44; heparan sulphate, 18/31; dermatan sulphate, 5/8; chondroitin 4/6-sulphate, 10/7 and heparin-like glycosaminoglycan, 1/2. The same species were also demonstrated as native constituents of uncultured human skin. Hyaluronic acid and dermatan sulphate predominated in dermis, whereas no single species predominated in epidermis. Their concentrations in uronic acid equivalents per mg of wet skin (pmol/mg of epidermis + dermis) were as follows in dermis/epidermis: hyaluronic acid, 243/0.48; heparan sulphate, 22/0.44; dermatan sulphate, 170/0.56; chondroitin 4/6-sulphate, 72/0.50; and heparin-like glycosaminoglycan, 5/0.22. Thus, only 0.4% of the in vivo synthesized glycosaminoglycan was present in epidermis.
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PMID:D-[3H]glucosamine labelling of epidermal and dermal glycosaminoglycans in cultured human skin. 338 61

Cellular response to inflammatory mediators is central to the regulation of new scar tissue formation. Fibroblasts derived from normal dermis and from 14-day old skin wound granulation tissue were compared with regard to production of non-collagenous extracellular matrix and response to interleukin-1 (IL-1). Following a serum-free 48 hour labeling with [3H]-glucosamine, the cellular, pericellular and medium fractions from the two cell types were collected, precipitated with cetylpyridinium chloride (CPC), and analyzed by cellulose acetate electrophoresis. In addition, susceptibility of precipitates to the polysaccharidases Streptomyces hyaluronidase and chondroitinase ABC was determined. Labeled conditioned medium from both cell types contained dermatan sulfate (DS) and hyaluronate (HA), although the relative amounts of these glycosaminoglycans (GAGs) were different. Medium from normal dermal fibroblasts contained more DS than HA, while 14-day granulation tissue culture medium contained a proportionately larger amount of HA. The amount of HA in the medium fraction of normal dermal fibroblasts was increased approximately 10-fold in the presence of 5 U/ml IL-1, while HA in the medium of wound-derived fibroblasts was quantitatively unaffected by addition of the mediator. Pericellular GAG consisted of heparan sulfate (HS) and chondroitin sulfate (CS), with no observable differences between the two cell types and no effect of IL-1 on this profile for either cell type. Conditioned medium from both cell types contained IL-1 activity (measured by thymocyte proliferation assay), with medium from 14-day granulation tissue fibroblasts containing 10-fold higher activity than normal dermal fibroblast medium.
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PMID:Modulation of fibroblast growth and glycosaminoglycan synthesis by interleukin-1. 350 Aug 28

The effects of the enzymes collagenase, pepsin, chondroitinase ABC and keratanase on the polypeptide composition of the mammalian tectorial membrane have been analysed using one dimensional SDS-polyacrylamide gel electrophoresis (SDS-PAGE). After reduction at least ten polypeptides can be consistently and clearly recognized in SDS gels with molecular weights relative to globular protein standards of 245, 235, 190, 165, 155, 145, 100, 93, 60-73 and 35-49 kDa. With the exception of the 60-73 and 35-49 kDa bands all these polypeptides are sensitive to digestion with bacterial collagenase. The 235, 165, 155, 145 and 93 kDa bands also resist degradation by cold, acidic pepsin. Amino acid analysis of whole tectorial membranes demonstrates that glycine accounts for nearly 25% of the total amino acid content, that proline, hydroxyproline and hydroxylysine are present and that amine sugars can be detected in fairly high concentrations. Estimates based on hydroxyproline content suggest that collagens account for 25-50% of the total tectorial membrane protein. Immunoblotting techniques demonstrate the presence of polypeptides cross reacting with antisera to Type II collagen, Type IX collagen and Type V collagen. Results from immunohistochemical studies confirm that these polypeptides are present in the tectorial membrane and are not contaminants of the isolation procedure. Collagenase treatment of tectorial membranes reveals the presence of an additional non-collagenous polypeptide with an apparent molecular weight of 173 kDa on 7.5% polyacrylamide gels, and polydisperse high molecular weight material spreading over a broad range at the top of the gels. This high molecular weight material and the 173, 60-73 and 35-49 kDa non-collagenous polypeptides are pepsin sensitive and all bind wheat germ agglutinin (WGA) suggesting that they contain N-acetyl glucosamine. The 173 kDa band also binds soybean agglutinin (SBA) suggesting the presence of N-acetyl galactosamine. In the absence of reducing agent the 173 and 60-73 kDa bands are no longer observed and high molecular weight material forming a broad band at the top of the separating gel is seen. The electrophoretic behaviour of this non-collagenous, glycosylated, disulphide bonded, high molecular weight material is altered by treatment with keratanase but not by chondroitinase ABC. The results of this study indicate the tectorial membrane contains at least three different collagen types and, in addition to these collagenous proteins, several non-collagenous, glycosylated polypeptides that may account for as much as 50% of the total tectorial membrane protein.
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PMID:Polypeptide composition of the mammalian tectorial membrane. 354 19

Lowe (oculocerebrorenal) syndrome (LS) is an X-linked disorder characterized by congenital cataracts, generalized hypotonia, mental retardation, and renal Fanconi syndrome. The basic defect remains unknown, but the possibility that fibroblasts express reduced sulfation of glycosaminoglycans has been studied in several laboratories. A mechanism involving overproduction of an enzyme (nucleotide pyrophosphatase) active against adenosine 3'-phosphate, 5'-phosphosulfate (PAPS) has been postulated. Decreased synthesis of normally sulfated glycosaminoglycans was also reported. We measured the synthesis of proteoglycans and glycosaminoglycans by incorporation of [3H]glucosamine and Na2(35)SO4 into cultured fibroblasts from four LS patients and related it directly to the synthesis in six normal fibroblast cultures. We found that the rate of synthesis varied greatly among the normal cultures (cv, 30%), but not significantly between LS and the normal. The LS fibroblasts' ability to sulfate glycosaminoglycans was assayed as the amount of 3H-glycosaminoglycan eluting at low ionic strength on anion exchange chromatography, the amount of non-sulfated disaccharide present in chondroitinase digests of labeled proteoglycans, and the ratio of 35S to 3H incorporation into proteoglycans. Each parameter suggested that the LS cells were synthesizing normally sulfated glycosaminoglycans (e.g. % delta Di-0S, 21 +/- 6 in normal; 27 +/- 6 in LS). The cells' ability to sulfate glycosaminoglycans was tested under conditions of markedly stimulated glycosaminoglycan synthesis, by treating the cultures with a beta-D-xyloside. LS and normal cells responded to the treatment by elevating the rate of synthesis of normally sulfated glycosaminoglycans (3.5-6-fold in normal, 3-7-fold in LS). Nucleotide pyrophosphatase activities were found to be elevated in each of our four LS cell strains as in the previous studies, excluding genetic heterogeneity as an explanation for our findings. We conclude that LS fibroblasts do not express defects in sulfation of glycosaminoglycans or in synthesis of proteoglycans.
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PMID:Proteoglycan synthesis in normal and Lowe syndrome fibroblasts. 357 Dec 27

The method of human gallbladder epithelial cell culture has been developed successfully with active mucus secretory function. Human gallbladder epithelial cells were dissociated by Dispase digestion from the specimens obtained by cholecystectomy for uncomplicated gallbladder stone cases. The dissociated cells formed a monolayer in Eagle's minimum essential medium supplemented with 10% fetal bovine serum within 24 h after the inoculation. These cells were maintained for at least 2 wk without fibroblastic overgrowth. Cultured cells contained periodic acid Schiff-positive material in cellular cytoplasm for 3 d. On transmission electron microscopy these materials were identified as mucous secretory granules. Mucous secretory function was determined by [3H]glucosamine incorporation. Sixty percent of the secreted glycoproteins labeled with [3H]glucosamine was eluted in excluded fractions of Sepharose 4B gel filtration, which were considered to be mucous glycoprotein, because they were found to be resistant to proteoglycan-specific enzymes such as hyaluronidase, chondroitinase ABC, heparitinase, and heparinase. The mucous glycoprotein secretion was maintained for 3 d and found to be inhibited in a dose-dependent manner by monensin (10(-7) to 10(-5) M) which is a known blocker of secretory function.
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PMID:Demonstration and maintenance of mucus secretion in cultured human gallbladder epithelial cells. 362 58

We investigated the effect of mechanical stimulation by an intermittent compressive force (ICF) on proteoglycan (PG) synthesis and PG structure in calcified and noncalcified cartilage of fetal mouse long bone rudiments. Uncalcified cartilaginous long bone rudiments were cultured for 5 days in the presence of [35S]sulfate and [3H]glucosamine under control conditions (atmospheric pressure) or under the influence of ICF. ICF was generated by intermittently compressing the gas phase above the culture medium (130 mbar, 0.3 Hz). During culture, the center of the rudiments started to calcify. ICF stimulated calcification such that, after 5 days, the diaphysis of calcified cartilage was about two times as long as in the control cultures. At the end of the experiment, the rudiments were divided in a central calcified diaphysis and two noncalcified epiphyses. Diaphysis and epiphyses were pooled separately. PGs were extracted with 4 M guanidinium chloride and isolated by cesium chloride density gradient centrifugation. PGs (predigested with proteinase K or chondroitinase ABC) were characterized for hydrodynamic size of aggregates, monomers, and chondroitin sulfate chains by gel permeation chromatography and for degree of sulfation by ion exchange chromatography on high pressure liquid chromatography columns. ICF increased the amount of incorporated sulfate per tissue volume unit in the noncalcified epiphyses, but decreased this parameter in the calcified diaphysis. However, in both calcified and noncalcified cartilage, ICF increased the degree of sulfation of the chondroitin sulfate chains. No effects were found on the hydrodynamic size of the PG aggregates or monomers, but in the epiphyses ICF increased the size of the chondroitin sulfate chains. No other changes of structural characteristics of the macromolecules were observed. This study demonstrates that ICF generally stimulated the incorporation of [35S]sulfate into chondroitin sulfate chains. We conclude from the lowered [35S]sulfate content in calcified cartilage that ICF reduced the number of chondroitin sulfate chains and probably PGs while accelerating matrix calcification. It seems likely that the two effects are linked, indicating that a reduction of the number of chondroitin sulfate chains is part of the complicated process of cartilage calcification.
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PMID:Influence of intermittent compressive force on proteoglycan content in calcifying growth plate cartilage in vitro. 368 Feb 8

Our previous work showed that vitamin C deficiency caused about a 70-80% decrease in the incorporation of [35S]sulfate into proteoglycan of guinea pig costal cartilage, coordinately with a decrease in collagen synthesis (Bird, T. A., Spanheimer, R. G., and Peterkofsky, B. (1986) Arch. Biochem. Biophys. 246, 42-51). We examined the mechanism for decreased proteoglycan synthesis by labeling normal and scorbutic cartilage in vitro with radioactive precursors. Proteoglycan monomers from scorbutic tissue were of a slightly smaller average hydrodynamic size than normal but there was no difference in the size of the glycosaminoglycan chains isolated after papain digestion. The type of glycosaminoglycans synthesized and the degree of sulfation were unaffected as determined by chondroitinase ABC digestion and duel labeling with [35S]sulfate and [3H]glucosamine. Conversion of [3H]glucosamine to [3H]galactosamine also was unimpaired. There was about a 40% decrease in core protein synthesis, measured by [14C]serine incorporation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Nevertheless, decreased incorporation of [35S]sulfate into scorbutic tissue persisted in the presence of p-nitrophenyl-beta-D-xyloside and cycloheximide, which indicated that the site of the scorbutic defect was beyond core protein synthesis and xylosylation. Galactosyltransferase activity in scorbutic cartilage decreased to about one-third the levels in control samples in parallel with the decreases in proteoglycan and collagen synthesis. Our results suggest that the step catalyzed by this enzyme activity, the addition of galactose to xylose prior to chondroitin sulfate chain elongation, is the major site of the scorbutic defect in proteoglycan synthesis. Decreased enzyme activity may be related to increased cortisol levels in scorbutic serum.
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PMID:Mechanism for the decreased biosynthesis of cartilage proteoglycan in the scorbutic guinea pig. 373 50


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