Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Monomer proteoglycan was isolated from porcine ovarian follicular fluid by isopycnic CsCl centrifugation in the presence of 4 M guanidine HCl and protease inhibitors. The elution profile of the D1 preparation on Sepharose 2B was similar to that of monomer proteoglycan from bovine nasal cartilage, indicating a similar molecular size. Follicular fluid proteoglycans consist of about 20% protein, 50% dermatan sulfate, and 20% oligosaccharides rich in sialic acid, galactose, mannose, glucosamine, and galactosamine. The amino acid composition of this proteoglycan is significantly different from that of cartilage proteoglycans, with a higher proportion of aspartic acid, threonine, and lysine, and lower amounts of proline and glycine. Alkali-released dermatan sulfate chains are larger on Sepharose 6B (average Mr = 56,000) than chondroitin sulfate chains from cartilage proteoglycans (average Mr = 25,000), and iduronic acid accounts for 9% of total hexuronic acid. Disaccharide units released by chondroitinase ABC consists of 67% 4-sulfated, 22% 6-sulfated, 5% non-sulfated, and 5% disulfated disaccharides. After treatment with 0.05 M NaOH, 1 M NaBH4 at 45 degrees C for 24 h, two major sialic acid-containing oligosaccharides were observed on Sephadex G-25, corresponding to penta- and hexasaccharides. The pentasaccharide contained sialic acid, galactose, glucosamine, and galactosamine in the proportions 1:2:1:1. The galactosamine is O-glycosidically linked to the protein core. This oligosaccharide accounts for approximately 77% of all the sialic acid in the follicular fluid proteoglycans. The hexasaccharide fraction contained sialic acid, galactose, mannose, and glucosamine in the proportions 1:2:1:2. It also contained a small amount of fucose and galactosamine. The linkage of these oligosaccharides to the protein core remains to be determined. The follicular fluid proteoglycans, unlike those from cartilage, do not interact with hyaluronic acid. Digestion with trypsin, chymotrypsin, or plasmin released dermatan sulfate-peptides nearly as small as those released by papain or alkali; in contrast, cartilage proteoglycans were resistant to plasmin and released peptides containing an average of more than four chondroitin sulfate chains after trypsin or chymotrypsin digestion.
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PMID:Isolation and characterization of proteoglycans from porcine ovarian follicular fluid. 76

We describe here the purification and partial characterization of a 200 kDa keratan sulphate proteoglycan found in the pericellular matrix of human embryonal carcinoma cells. Previously we have shown that this molecule is recognized by a monoclonal antibody (GCTM-2). The antigen was isolated using ion-exchange chromatography and gel filtration, purification being monitored by e.l.i.s.a. using GCTM-2. Metabolic labelling of GCT 27 C-4 embryonal carcinoma cells with sodium [35S]sulphate resulted in the incorporation of [35S]sulphate into the purified molecule. Throughout the purification procedure, the peaks of 35S radioactivity were coincident with the peaks of immunoreactivity, and this label was released both by digestion with keratanase and chondroitinase, confirming the proteoglycan nature of the antigen. The intact molecule ran as a single broad band of 200 kDa, which has been identified by silver staining and immunoblotting following gel electrophoresis. Amino acid analysis of the purified antigen indicated a high content of serine, glycine and aspartic acid/asparagine residues. Visualization by rotary-shadowing electron microscopy suggests that the purified material forms large aggregates, even under denaturing conditions. Deglycosylation of this preparation with trifluoromethanesulphonic acid yielded a major band of 55 kDa and a minor band of 48 kDa. The biochemical nature of the molecule described here, along with tissue distribution studies using GCTM-2, indicates that the antigen is not related to previously described keratan sulphate proteoglycans.
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PMID:A novel keratan sulphate proteoglycan from a human embryonal carcinoma cell line. 141 56

Following incubation of UMR-106 cells for 48 h in the presence of [3H]glucosamine and [35S]sulfate, the newly synthesized anionic glycoconjugates were isolated from the culture medium by cetylpyridinium chloride/ethanol precipitation and further separated by DEAE-Sephacel chromatography into two radiolabelled fractions, a major component, UM I, and a minor component, UM II. UM I appeared to be homogeneous as shown by Sepharose CL-4B chromatography under dissociative conditions, and SDS-polyacrylamide gel electrophoresis. It showed a molecular mass of approximately 93 kDa on 4-15% gels. UM I was partially degraded by brief treatment with trypsin, releasing a small, terminal peptide that contained 47.6% of 35S but no 3H. Treatment of UM I with neuraminidase and 0.1 N H2SO4 (1 h at 80 degrees C), respectively, released 27% 3H and 38.4% 3H plus 41% 35S, suggesting the presence of a significant number of sialic acid residues, as shown by Sephadex G-50 chromatography of the digests. Amino acid analysis showed that the UM I glycoconjugate was rich in acidic amino acids (12.6% aspartic acid and 21.2% glutamic acid residues) and its N-terminal sequence was Phe-Ser-Met-Lys-Asn-Phe-, which is identical to the published N-terminal amino acid sequence of rat bone sialoprotein II. Keratanase treatment of UM I released 26% of the incorporated radioactivity, suggesting the presence of keratan sulfate chains. UM II contained a chondroitinase ABC-sensitive proteoglycan.
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PMID:Further purification and characterization of newly synthesized anionic glycoconjugates secreted by cultured UMR-106 cells: evidence that the major anionic glycoconjugate secreted by these cells is similar to bone sialoprotein II. 176 Jan 56

A 22 x 10(3) Mr protein (abbreviated 22K) that copurifies with dermatan sulfate proteoglycans (DS-PGs) following the biochemical fractionation of bovine fetal skin has been evaluated for adhesion-promoting activity in vitro using Balb/c 3T3 cells, as well as bovine and human dermal fibroblasts. Substrata coated with 22K protein promote attachment of a subset of 3T3 and dermal fibroblasts that respond to plasma fibronectin (pFN) substrata. Cells on 22K protein display partial cytoplasmic spreading, comparable to that of cells adhering to cell-binding fragments of pFN. Adhesion activity of 22K is not due to contamination with known adhesive proteins of dermal matrices and is not dermal cell type-specific, since two classes of neuronal cells also respond effectively to 22K substrata. DS-PGs from cartilage or skin completely inhibit 22K adhesion activity when the PGs are adsorbed to 22K substrata under conditions prohibiting PGs from binding to substrata directly. Cartilage chondroitin/keratan sulfate proteoglycan at much higher concentrations is only partially inhibitory. Inhibition by DS-PGs is mediated by DS chains binding to 22K. Properties of the cell surface 'receptor' for 22K protein were tested by several approaches. It is not cell surface DS-PG, since: (1) cells unable to produce this proteoglycan class also responded; (2) cells treated with chondroitinase ABC responded equally well; and (3) substrata of proteoglycan-binding platelet factor-4 generated responses from cells that were quantitatively and qualitatively different. A synthetic peptide in the medium containing the Arg-Gly-Asp-Ser (RGDS) sequence completely inhibited responses to 22K substrata. This observation, coupled with sequencing data of 22K protein revealing an Arg-Gly-Ala-Thr sequence at residues 151-154, suggest that 22K protein mediates adhesion by cell surface integrin binding. Therefore, this newly discovered matrix protein from skin may serve as a communication link between the dermal fibroblast cell surface and its extracellular matrix environment.
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PMID:Extracellular matrix adhesion-promoting activities of a dermatan sulfate proteoglycan-associated protein (22K) from bovine fetal skin. 193 76

A D-glucuronic acid rich, copolymeric chondroitin sulfate (CS)-dermatan sulfate (DS) proteoglycan (PG) from post-burn hypertrophic scar tissue (HSc) was obtained by DEAE-cellulose chromatography and differential ethanol fractionation, and further purified on a Sepharose CL-6B column. CS-DS-PG protein content was 14% (w/w). The amino-terminal amino acid sequence of the first ten residues was as follows: NH2-Asp-Glu-Ala-B-Gly-Ile-Gly-Pro-Glu-Val. This sequence is identical to that of human embryonic fibroblast cell (IMR-90) CS-DS-PG, as well as to human HSc-DS-PG. After chondroitinase ABC treatment, two peptides (Mr 22,000 and 16,000 daltons) were detected by sodium dodecyl sulfate-(polyacryl)amide gel electrophoresis (SDS-PAGE). ELISA analysis using rabbit antiserum raised against a synthetic peptide that contained 15 amino acids in the same sequence as the amino terminus of human fetal membrane PG showed significant reactivity with HSc CS-DS-PG. HSc CS-DS-PG had an apparent Mr of approximately 78,000 daltons, as determined by Sepharose CL-6B chromatography and SDS-PAGE. Alkaline borohydride treatment of CS-DS-PG liberated CS-DS glycosaminoglycan (GAG) chains having an Mr of 29,000 daltons. The conversion of xylose to xylitol indicated that the GAG chains are attached to the PG protein core at O-3 through a xylosyl-seryl linkage. CS-DS-PG also contained both N and O-linked oligosaccharides and did not aggregate with hyaluronic acid. These results, together with those reported previously, showed that HSc CS-DS-PG and DS-PG have the same A1-A15 amino acid sequence at the amino terminus but different protein cores. HSc CS-DS-PG was completely digested with chondroitinase AC and is, therefore, distinctly different from HSc DS-PG.
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PMID:Isolation and some structure analyses of a copolymeric chondroitin sulfate-dermatan sulfate proteoglycan from post-burn, human hypertrophic scar. 234 48

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

The involvement of embryonic cell surface proteoglycans in the attachment and outgrowth of cultured mouse embryos has been investigated. Several lines of evidence indicate that periimplantation stage blastocysts express heparin/heparan sulfate proteoglycans on their cell surfaces that can mediate embryo attachment and trophoblast outgrowth on a variety of matrices. First, in the presence of soluble heparin, the rate at which embryos attach and outgrow on laminin, fibronectin, or monolayers of uterine epithelial cells is reduced considerably. In the case of fibronectin, the rate of outgrowth in the presence of the heparin is slower than in the presence of the Arg-Gly-Asp-Ser-containing peptide that is recognized by a fibronectin receptor. Embryos also attach and exhibit a limited ability to outgrow on platelet factor IV, a heparin binding protein that does not possess the additional binding domains of laminin or fibronectin. Attachment on platelet factor IV is inhibited by heparin. Second, cell surface digestion of attachment-component embryos with heparinase, but not chondroitinase ABC, slows the rate of outgrowth on tissue culture plates in the presence of serum. Third, selective staining for sulfated molecules on the trophectoderm surface of periimplantation stage embryos indicates that such molecules are abundant and uniformly distributed on these cell surfaces. Last, heparin/heparan sulfate proteoglycans are detected as major cell surface components of embryos using vectorial labeling with lactoperoxidase and Na125I. Collectively, these data indicate that heparin/heparan sulfate-bearing molecules have a direct role in attachment and outgrowth of implantation stage blastocysts.
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PMID:Heparin/heparan sulfate is involved in attachment and spreading of mouse embryos in vitro. 295 79

Dermatan sulfate (DS) proteoglycans (PGs) were extracted from human post-burn scar (Sc) tissues with 4M guanidinium chloride and isolated from the extracts by DEAE-cellulose chromatography and by differential ethanol precipitation. The DS.PGs were further purified by Sepharose CL-6B column chromatography. The average molecular weight (Mr) of hypertrophic scar (HSc) tissue DS.PGs was 39,000 based on sedimentation equilibrium measurements. Alkaline borohydride treatment of DS.PGs liberated glycosaminoglycan (GAG) chains and the presence of xylitol indicated that these chains were attached to protein core by xylosyl residues. The average Mr of the DS.GAG chain from HSc and normal scar (NSc) samples were 23,500 and 20,000 respectively. After digestion of the HSc and NSc, DS.PGs with chondroitinase ABC in the presence of proteinase inhibitors, two peptide components with Mr values of 21,500 and 17,000 were detected by SDS-polyacrylamide gel electrophoresis using reducing conditions. Analysis of the protein core fractions derived from NSc and HSc DS.PGs by Sepharose CL-6B column chromatography showed the presence of a single NH2-terminal amino acid (aspartic acid) and also that the fractions with different KAV values had an identical NH2-terminal sequence (A1-A5). The A1-A23 sequence of NSc DS.PG (major fraction, C): NH2Asp-Glu-Ala-O-Gly-Ile-Gly-Pro-Glu-Val-Pro-Asp-Asp-Arg-Asp-Phe-G lu-Pro- Ser-Leu-Gly-Pro-Val was the same as reported for a DS.PG isolated from human fetal membrane (HFM) tissue (Brennan et al., 1984). ELISA inhibition assay using monoclonal antibodies raised in rabbit against the NH2-terminal peptide (containing 15 amino acids) of human fetal membrane tissue were found to cross-react with HSc and NSc DS.PGs. Monoclonal antibodies to bovine skin DS.PGs protein core (Pearson et al., 1983) did not show any cross-reactivity with scar DS.PGs. These results show that the scar DS.PGs described here are different from normal bovine skin DS.PGs in the size and type of the protein core, and that in all the samples, the peptide components have the same NH2-terminal amino acid sequence.
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PMID:Isolation and partial characterization of dermatan sulfate proteoglycans from human post-burn scar tissues. 321 4

Type IX collagen from chick embryonic cartilage is unique among the collagens in that it contains chondroitin sulfate covalently linked to the alpha 2(IX) polypeptide chain. We have isolated and sequenced the glycosaminoglycan-containing peptide released by collagenase digestion from type IX collagen, labeled biosynthetically with [35SO4] and 3H-aminoacids. This peptide was purified by gel filtration and, following chondroitinase ABC digestion, by reverse-phase high performance liquid chromatography. The amino acid sequence obtained for this peptide has 23 residues, beginning and ending with a collagenous sequence, indicating that it spans an internal noncollagenous domain. Comparison of this sequence with the one predicted from cDNA clone pYN 1738 for the alpha 1(IX)chain and pYN 1731 and pDM 222 for the alpha 2(IX)chain revealed the peptide to be the noncollagenous NC3 domain of alpha 2(IX). The glycosylated sequence Val-Glu-Gly-Ser*-Ala-Asp- of type IX collagen does not have the Ser-Gly normally functioning as the attachment sequence but does have an acidic residue preceding the serine which should improve the acceptability of this sequence for the xylosyltransferase. That it is an adequate acceptor can be inferred from the observation that type IX collagen carries a glycosaminoglycan chain on over 70% of the molecules isolated.
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PMID:Isolation and sequence analysis of the glycosaminoglycan attachment site of type IX collagen. 333 23

Proteoglycans were extracted in good yield from the proximal, fibrous portion of adult bovine tendon with 4 m guanidine HCl. They comprise less than 1% of the dry weight of the tissue. Using CsCl density gradient centrifugation, gel chromatography, and ion exchange chromatography, two populations of proteoglycans were separated and purified from other tissue proteins. One was a large, chondroitin sulfate proteoglycan with high buoyant density in CsCl. This component appeared to be composed of two or three subpopulations as detected by agarose/polyacrylamide electrophoresis, although they could not be effectively separated from one another for individual characterization. As a group, the large proteoglycans eluted from Sepharose CL-2B with Kav from 0.1-0.5 and their core protein had Mr greater than 200,000 with high contents of glutamic acid, serine, and glycine. The glycosaminoglycan chains had a weight average Mr of 17,000 and more than 98% of the uronic acid was glucuronic acid. This group comprised only 12% of the total proteoglycan of the tissue. The other 88% of the proteoglycans appeared to represent one group of small molecules that eluted from Sepharose CL-2B at Kav = 0.70. They demonstrated buoyant densities in a CsCl gradient ranging from greater than or equal to 1.51 to 1.30 g/ml. Their core protein had an apparent Mr = 48,000 following removal of the glycosaminoglycan chains by digestion with chondroitinase ABC. This core protein had a particularly high content of aspartic acid/asparagine and leucine. The glycosaminoglycan chains had a weight average Mr of 37,000 and were dermatan sulfate containing 73% iduronic acid. Those molecules found at highest buoyant density appeared to have additional glycosaminoglycan chains that were shorter. Proteoglycans were also extracted from the pressure-bearing distal region of this tendon, where contents of proteoglycan per wet weight of tissue were 3-fold higher and as much as 50% of this was as large as the large proteoglycans from the proximal tissue. Preparations of large proteoglycans from both tendon regions contained molecules capable of interacting with hyaluronic acid.
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PMID:Characterization of proteoglycans from adult bovine tendon. 401 75


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