EC:3.1.6.12 - FACTA Search

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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)

Incorporation of sulfate into alcian blue-precipitable glycosaminoglycan of 12-day-old chick embryo sterna is stimulated by addition, separately or together, of normal human serum and physiological concentrations of thyroid hormones (Audhya, T.K., and Gibson, K.D. (1975) Proc. Natl. Acad, Sci. U. S. A. 72, 604--608). We present evidence that this stimulation is due to increased synthesis of at least one proteoglycan, with minor alterations in the size and chemical composition of the glycosaminoglycans. Pulse-chase experiments showed no detectable loss of label during the chase, in control sterna or sterna incubated with serum and L-3,5,3'-triiodothyronine; thus, all incorporation was the result of synthesis of glycosaminoglycans. In double-label experiments, with 35SO4(2-) and [3H]acetate, the molar ratio of 3H and 35S incorporated into glycosaminoglycans was changed little, if at all, by addition of serum or triiodothyronine or both, at concentrations which increased incorporation up to 2-fold. Glycosaminoglycans isolated from these and other incubations gave similar elution patterns from agarose columns, and identical electrophoretic patterns on cellulose acetate. Digestion with chondroitinase ABC (chondroitin ABC lyase; EC 4.2.2.4.) showed that incorporation was into chondroitin sulfate and possibly hyaluronic acid, and that the proportions of non-sulfated, 4-sulfated, and 6-sulfated disaccharide units differed little between stimulated and unstimulated sterna. Incorporation of [3H]serine into glycosaminoglycans from papain digest of sterna paralleled incorporation of 35SO4(2-), and indicated a number average molecular weight between 21,000 and 25,000 for the newly synthesized chondroitin sulfate. This value was confirmed by gel filtration chromatography, which also showed that the average molecular weight of the newly synthesized chondroitin sulfate decreased up to 15% under conditions of 2-fold stimulation. Proteoglycans were extracted from sterna incubated with [3H]serine and 35SO4(2-) and analyzed by isopycinic centrifugation in CsCl and by zone sedimentation in a sucrose gradient. A major proteoglycan fraction could be separated by either method. Incorporation of both isotopes into this proteoglycan fraction, and into glycosaminoglycans isolated after papain digestion, was stimulated in a coordinate manner. Almost identical results were obtained with both separation techniques. The results indicate that the synthesis of the major proteoglycan, and probably also of a minor one, is stimulated by serum and triiodothyronine.
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PMID:Stimulation of proteoglycan synthesis in chick embryo sternum by serum and L-3,5,3'-triiodothyronine. 13 41

The sulfated proteoglycans synthesized by definitive chondroblasts in cultured 10-day chick vertebral or epiphyseal cartilages were characterized by their sedimentation profile in a sucrose gradient and their susceptibility to chondroitinase ABC (EC 4.2.2.4; chondroitin ABC lyase). These sulfated proteoglycans were indistinguishable from those synthesized by definitive chondroblasts that emerge from older cultures of somites plus notochord or in older cultures of limb buds. The sulfated proteoglycans of these definitive chondroblasts are readily distinguished from those synthesized by their mother cells, the presumptive chondroblasts, or those synthesized by dedifferentiated or bromodeoxyuridine-suppressed chondroblasts. However, the sulfated proteoglycans synthesized by presumptive chondroblasts or by dedifferentiated or bromodeoxyuridine-suppressed chondroblasts cannot be dintinguished by these techniques from those synthesized by (i) blastodisc cells, (ii) fibroblasts, (iii) spinal cord cells, or (iv) skeletal, cardiac, or smooth muscle cells. Addition of glycosaminoglycans or collagen to the medium did not induce somite or limb presumptive chondroblasts to synthesize the chondroblast-unique sulfated proteoglycans. Cells moving from the presumptive chondroblast compartment into the chondroblast compartment acquire not only the option to initiate the synthesis of chondroblast-unique collagen chains, but also the capacity to synthesize chondroblast-unique sulfated proteoglycans.
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PMID:Differences among sulfated proteoglycans synthesized in nonchondrogenic cells, presumptive chondroblasts, and chondroblasts. 13 59

Radioactivity was significantly incorporated from ascorbate 2-[35S]sulfate into chondroitin sulfate by embryonic chick cartilage epiphyses. The extent of incorporation was comparable with that from inorganic [35S]sulfate. The radioactive chondroitin sulfate formed from ascorbate 2-[35S]sulfate gave two radioactive disaccharides on chondroitinase-ABC [EC 4.2.2.4] digestion. The incorporation was markedly decreased by inorganic sulfate. The time course of incorporation from ascorbate 2-[35S]sulfate and inorganic [35S]sulfate into chondroitin sulfate and the constituent disaccharides suggest that the incorporation rates from the two radioactive substances are different.
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PMID:Sulfate incorporation from ascorbate 2-sulfate into chondroitin sulfate by embryonic chick cartilage epiphyses. 103 15

Glycosaminoglycans (GAGs) including chondroitin sulfate, dermatan sulfate, heparan sulfate, heparin, and keratan sulfate types I (corneal) and II (cartilage) added to buffer, plasma and urine were enzymatically depolymerized. Enzymes, including chondroitin ABC lyase (chondroitinase ABC), heparin lyase (heparinase), heparan sulfate lyase (heparitinase), endo-beta-galactosidase and keratanase were used to depolymerize each GAG. Depolymerized GAGs and GAG mixtures were fractionated using gradient polyacrylamide gel electrophoresis. Staining with alcian blue dye resulted in a distinctive and well resolved banding pattern for each GAG. When these same gels were silver stained, an increase in detection sensitivity of 1000-fold was obtained. Picogram quantities of an oligosaccharide standard in buffer could be detected with silver staining while nanogram quantities could be detected in urine or plasma. The banding pattern observed for each depolymerized GAG was well resolved from contaminants found in these biological fluids and from intact GAGs. Endogenous GAGs present in samples of human urine and plasma were first concentrated and then enzymatically depolymerized. Chondroitin or dermatan sulfates, heparan sulfate and keratan sulfate were each detected in both concentrated plasma and urine samples.
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PMID:Electrophoresis and detection of nanogram quantities of exogenous and endogenous glycosaminoglycans in biological fluids. 171 41

Primary cultures of meningeal cells from embryonic rat cerebra secrete neurite growth-inducing components into serum-free culture medium. This conditioned medium (CM) was analyzed by FPLC and immunochemical and enzymatic treatments and tested for neurite promoting activity (NPA) in a quantitative bioassay using hippocampal neurons from embryonic rat. By immunoprecipitation or specific adsorption we identified laminin (LN)-proteoglycan complexes and fibronectin (FN), respectively, as the major neurite promoting components within meningeal cell CM. The LN-proteoglycan complexes and their NPA were sensitive to chondroitinase (chondroitin ABC lyase, EC 4.2.2.4) and to a smaller extent to heparitinase (heparitin sulfate lyase, EC 4.2.2.8). Minor fractions of the total NPA in CM correlated with free LN and a putative but not yet characterized FN-proteoglycan complex.
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PMID:Identification of meningeal cell released neurite promoting activities for embryonic hippocampal neurons. 199 93

An association between the release of histamine and chondroitin sulfate E proteoglycan (PG) was demonstrated in human colonic mucosa (HCM). Colonic biopsy samples incorporated [35S]sulfate (2.7 X 10(6) +/- 188 X 10(3) cpm/mg of wet tissue; mean +/- SEM, n = 5) into PG, which was partially released into the culture medium during the incubation period. Ascending thin-layer chromatography of the released 35S-labeled PG after its digestion by chondroitin ABC lyase (chondroitinase, EC 4.2.2.4) followed by autoradiography yielded three products that migrated in the position of monosulfated disaccharides of N-acetylgalactosamine 4-sulfate and N-acetylgalactosamine 6-sulfate and of an oversulfated disaccharide possessing N-acetylgalactosamine 4,6-disulfate. Cultured colonic mucosa released 23.6 +/- 3.7 ng of histamine per mg of wet tissue (mean +/- SEM, n = 16) without any specific trigger. Comparison by linear regression analysis of the release of histamine and chondroitin [35S]sulfate E PG revealed a correlation coefficient (r) of 0.7 (n = 16; P less than 0.005). Histological examination of the colonic biopsies revealed the presence of many mast cells in various degrees of degranulation in the mucosa and submucosa, most of which were found in the submucosa. Incubation of the HCM biopsies in the presence of anti-human IgE revealed 58% +/- 12% (mean +/- SEM, n = 3) enhancement in the release of chondroitin [35S]sulfate E PG and 64% +/- 10% (mean +/- SEM, n = 4) of histamine release. The above correlation, the observation that most of the mast cells showed various degrees of degranulation, and the lack of heparin synthesis as opposed to the synthesis and immunological release of chondroitin sulfate E strongly suggest that the E mast cell exists in the human colon.
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PMID:Histamine and chondroitin sulfate E proteoglycan released by cultured human colonic mucosa: indication for possible presence of E mast cells. 241 44

Using the reagents from the CEA-Roche kit, we found that solutions containing only glycosaminoglycans (GAG) yielded false concentrations of carcinoembryonic antigen (CEA), and mixtures of CEA and GAG produced falsely high values. On the other hand, solutions of GAG yielded no additional CEA concentration when reagents from the Abbott CEA kit were used; rather, the CEA result was decreased with the Abbott kit for a CEA solution also containing GAG. These effects of GAG were not ascribable to contamination, because neither gel filtration nor ion-exchange column chromatography separated the false Roche CEA content related to GAG from their peaks of uronic acid or from their anticoagulant activity. In addition, an enzyme specific for GAG eliminated these GAG-derived false concentrations. Both the positive and negative effects are correlated with concentrations of GAG. We found that the concentration of GAG could be decreased in a solution containing plasma proteins by either heating (70 degrees C, 15 min) or treating with perchloric acid (0.6 mol/L). The former is superior because essentially all GAG added to a solution containing plasma proteins were removed by heat, whereas as much as 25% to 80% of the GAG still remained after acid treatment. The effect of GAG was also completely eliminated by treating the specimens with chondroitinase ABC lyase (EC 4.2.2.4).
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PMID:Interference with carcinoembryonic antigen radioimmunoassays by glycosaminoglycans, and their removal. 631 62

Several types of tumors contain high concentrations of hyaluronate, yet isolated tumor cells in culture often produce little glycosaminoglycan. To explore the possibility that interactions between tumor cells and host fibroblasts stimulate hyaluronate synthesis, human tumor cells were grown separately from and in coculture with normal human fibroblasts. Stimulation was observed with each of the three types of tumor cells used: LX-1 lung carcinoma, DAN pancreatic carcinoma, and TRIG melanoma. The interaction between LX-1 cells and fibroblasts was studied in detail. Under serum-free conditions, cocultures of LX-1 and fibroblasts synthesized 3-fold more hyaluronate than the sum of that produced by LX-1 and fibroblast cultures grown separately. This stimulation was linear over 72 hr and hyaluronate represented 80% of the glycosaminoglycan synthesized. Maximum stimulation occurred at a ratio of fibroblasts to LX-1 cells of 1-2:1. Quantitation of unlabeled glycosaminoglycans by HPLC analysis of disaccharides generated by digestion with chondroitin ABC and AC lyases (EC 4.2.2.4 and 4.2.2.5) demonstrated that net accumulation of hyaluronate increased 2-fold and that hyaluronate represented 80% of total chondroitinase-sensitive glycosaminoglycan produced by the cocultures. The disaccharide patterns obtained showed that accumulations of chondroitin-4- and chondroitin-6-sulfates were stimulated proportionately to that of hyaluronate in these cocultures. Similar levels of stimulation due to coculture were obtained in serum-containing and serum-free media. Stimulation was not effected by addition of LX-1-conditioned medium to fibroblast cultures or by culturing LX-1 and fibroblasts under conditions where they shared the same medium but were physically separated. Cell contact between LX-1 and fibroblasts thus appears to be necessary for the stimulation of hyaluronate synthesis.
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PMID:Interactions between human tumor cells and fibroblasts stimulate hyaluronate synthesis. 659 27

Chondroitin sulfate lyase (EC 4.2.2.4) was present constitutively at low levels (0.06 to 0.08 U/mg of protein) in cells of Bacteroides thetaiotaomicron which were growing on glucose or other monosaccharides. When these uninduced bacteria were incubated with chondroitin sulfate A (5 mg/ml), chondroitin sulfate lyase specific activity increased more than 10-fold within 90 min. Synthesis of ribonucleic acid and of protein was required for induction, and induction was sensitive to oxygen. The disaccharides which resulted from chondroitinase action did not act as inducers, nor did tetrasaccharides or hexasaccharides obtained by digestion of chondroitin sulfate with bovine testicular hyaluronidase. None of these substances was taken up by uninduced cells; they may not have been able to penetrate the outer membrane. The smallest oligomer capable of acting as an inducer was the outer membrane. The smallest oligomer capable of acting as an inducer was the octassacharide. Oligomers larger than the octassacharide induced chondroitin lyase activity nearly as well as intact chondroitin sulfate.
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PMID:Induction of chondroitin sulfate lyase activity in Bacteroides thetaiotaomicron. 678 77

The action pattern of polysaccharide lyases on glycosaminoglycan substrates was examined using viscosimetric measurements and gradient polyacrylamide gel electrophoresis (PAGE). Heparin lyase I (heparinase, EC 4.2.2.7) and heparin lyase II (no EC number) both acted on heparin in a random endolytic fashion. Heparin lyase II showed an ideal endolytic action pattern on heparan sulphate, while heparin lyase I decreased the molecular weight of heparan sulphate more slowly. Heparin lyase III (heparitinase, EC 4.2.2.8) acted endolytically only on heparan sulphate and did not cleave heparin. Chondroitin ABC lyase (chondroitinase ABC, EC 4.2.2.4) from Proteus vulgaris acted endolytically on chondroitin-6-sulphate (chondroitin sulphate C) and dermatan sulphate at nearly identical initial rates, but acted on chondroitin-4-sulphate (chondroitin sulphate A) at a reduced rate, decreasing its molecular weight much more slowly. Two chondroitin AC lyases (chondroitinase AC, both EC 4.2.2.5) were examined towards chondroitin-4- and -6-sulphates. The exolytic action of chondroitin AC lyase A from Arthrobacter aurescens on both chondroitin-4- and -6-sulphates was demonstrated viscosimetrically and confirmed using both gradient PAGE and gel permeation chromatography. Chondroitin AC lyase F from Flavobacterium heparinum (Cytophagia heparinia) acted endolytically on the same substrates. Chondroitin B lyase (chondroitinase B, no EC number) from F.heparinum acted endolytically on dermatan sulphate giving a nearly identical action pattern as observed for chondroitin ABC lyase acting on dermatan sulphate.
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PMID:Action pattern of polysaccharide lyases on glycosaminoglycans. 794 54

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