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 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

Electron microscopy of ruthenium red stained bovine aorta before and after chondroitinase digestion demonstrates proteoglycans on and between collagen fibrils. The collagen-associated proteoglycans include a proteoglycan previously purified from this tissue as demonstrated by immunocytochemistry and are extractable with high molar guanidine HC1. In loci rich in proteoglycans such as areas of turbulent flow in calves, more proteoglycan can be demonstrated morphologically, and these molecules also coat elastin.
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PMID:The ground substance of the arterial wall. Part 2. Electron-microscopic studies. 13 92

Proteoglycans were extracted from bovine articular cartilage with guanidine-HCl and fractionated in cesium chloride density gradients by equilibrium ultracentrifugation. The acidic glycosaminoglycan (AGAG) components were then determined enzymatically with chondroitinase-ABC and streptomyces hyaluronidase. Under associative and dissociative conditions, the distribution of the AGAG components was as follows: the ratio of 4-sulfated disaccharide units to total AGAG increased with decreasing density gradients whereas that of 6-sulfated disaccharide units to total AGAG increased with increasing density gradients. The ratio of disulfated disaccharide units to total AGAG increased somewhat with decreasing density gradients whereas that of non-sulfated disaccharide units tended to decrease. Although the cartilage proteoglycan macromolecules were heterogeneous, a certain regularity was observed with respect to the distribution of sulfate and the degree of sulfation in the chondroitin sulfate chains of the proteoglycans.
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PMID:Constitutional heterogeneity of the glycosaminoglycans in articular cartilage proteoglycans. 14 4

Rat ovarian granulosa cells were isolated from immature female rats after stimulation with pregnant mare's serum gonadotropin and then maintained in culture. Proteoglycans were labeled using [35S]sulfate, D-[3h]glucosamine, or L-[3H]serine as precursors. 35S-labeled proteoglycans in the medium increased linearly up to 72 h after a 6- to 8-h lag period, and those in a 4 M guanidine HCl extract of the cell layer increased for about 16 h and then reached a plateau and stayed fairly constant up to 72 h. Two distinct sizes of proteoglycans were observed in the medium. The smaller (Kav = 0.60 on Sepharose CL-2B) had lower buoyant densities in dissociative gradients (rho less than 1.4 g/ml). The larger (Kav = 0.26 on Sepharose CL-2B) had high buoyant densities (recovered mainly in the bottom (D1) fraction of the dissociative gradient). More than 90% of the D1 proteoglycans contained dermatan sulfate chains (average Mr = 38,000) which yielded 84% 4-sulfated and 15% disulfated disaccharides after digestion with chondroitinase ABC. About 8% of the 35S-label in D1 was present as a heparan sulfate proteoglycan. When [3H]-glucosamine was used as a precursor, 28% of the 3H activity in the D1 proteoglycans was located in three major oligosaccharide components, two of which were similar or identical with those observed previously in D1 proteoglycans isolated from porcine follicular fluid. These results plus similar susceptibility of the labeled proteoglycans to proteolytic enzymes, especially plasmin, suggest that the granulosa cells synthesize the predominant follicular fluid proteoglycans.
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PMID:Biosynthesis of proteoglycans by rat granulosa cells cultured in vitro. 50 Jul 20

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

Colony stimulating factor-1 (CSF-1) is a homodimeric glycoprotein that humorally regulates the proliferation and differentiation of mononuclear phagocytic cells and locally regulates cells of the female reproductive tract. Alternative splicing of the human CSF-1 mRNA leads to alternative expression of the CSF-1 homodimer as a secreted glycoprotein or as a membrane-spanning molecule with cell surface biological activity. In the present study, analysis of immunoaffinity-purified CSF-1 from mouse L929 cell medium by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) indicated that CSF-1 is predominantly secreted as highly sulfated species of 375- and 250-kDa with a smaller amount of a 100-kDa species. Analysis by gel filtration in 4 M guanidine HCI buffer, indicated that, in contrast to the 100-kDa species, the highly sulfated species exhibit anomalously high molecular weights and self-association on SDS-PAGE similar to the dermatan sulfate proteoglycan, biglycan. The three predominant CSF-1 species were shown to be an 80-kDa homodimer, an 80-kDa/50-kDa heterodimer, and a 50-kDa homodimer. The 80-kDa subunit contained a single 18-kDa chondroitin sulfate chain that was absent from the 50-kDa subunit. Furthermore, treatment of the 80- and 50-kDa subunits, synthesized in the presence of tunicamycin, with chondroitinase ABC, neuraminidase, and endo-alpha-N-acetyl galactosaminidase reduced their apparent molecular masses to 60 and 25 kDa, respectively. These results are consistent with intracellular proteolytic cleavage of the 80-kDa chondroitin sulfate containing subunits from the membrane spanning CSF-1 precursor at a point carboxyl-terminal to the single consensus sequence for glycosaminoglycan addition and cleavage of the 50-kDa glycoprotein subunit at a position aminoterminal to this site. The predominance of the proteoglycan form of secreted CSF-1, which represents only 3-4% of the total trichloroacetic acid-precipitable counts released from 35SO4(2-)-labeled L cells, has important implications for regulation by this growth factor.
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PMID:The predominant form of secreted colony stimulating factor-1 is a proteoglycan. 173 26

We examined biochemically and immunocytochemically the type and distribution of mineral binding proteoglycans (PGs) in rat mid-shaft subperiosteal bone using three monoclonal antibodies (MAb 1-B-5, 9-A-2, and 3-B-3) which specifically recognize unsulfated chondroitin, chondroitin 4-sulfate (C4-S) and dermatan sulfate (DS), and chondroitin 6-sulfate. Bone proteins were extracted from fresh specimens with a three-step technique: 4 M guanidine HCl (GdnCl), aqueous EDTA without GdnCl (E-extract), followed by GdnCl. Western blot analysis of SDS-polyacrylamide gel electrophoresis revealed that E-extract after chondroitinase ABC digestion reacted strongly with MAb 9-A-2 but not with MAb 1-B-5 or 3-B-3. After adehyde fixation, ethanolic trimethylammonium EDTA was used as a demineralizing agent for light and electron immunocytochemistry. This provided good retention of water-soluble PGs in the specimens. After chondroitinase ABC pre-treatment of tissue sections, MAb 9-A-2 specifically stained C4-S and/or DS in the walls of osteocyte lacunae and bone canaliculi in the mineralized matrix as well as in the unmineralized matrix such as pre-bone, vascular canals, and pericellular matrix surrounding osteocytes; the remainder of the mineralized matrix lacked staining. These results indicate that mineral binding PGs contain C4-S and/or DS and are exclusively localized in the walls of the bone lacuna and canaliculus.
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PMID:Biochemical and immunocytochemical characterization of mineral binding proteoglycans in rat bone. 189 98

Proteoglycans (PGs) synthesized by the epidermis during stages crucial to the subepidermal migration of neural crest cells in the trunk of the axolotl (Ambystoma mexicanum, Urodela, Amphibia) embryo were studied. The glycosaminoglycan chains were biosynthetically labeled with [35S]sulfate in vitro during a period corresponding to the onset of migration. After extraction with guanidine HCl, the radiolabeled PGs were separated according to size by molecular-sieve chromatography on Sepharose CL-2B under dissociative conditions. This resulted in the separation of high-molecular-weight PGs, which eluted in the void volume, and low-molecular-weight PGs, eluting in a broad peak with a mean Kav of 0.7. The large PGs were also found to elute in the void volume when chromatographed on a Sephacryl S-1000 column. The low-molecular-weight PGs contained heparan sulfate and chondroitin sulfate (CS) and were not further characterized. The glycosaminoglycan component of the high-molecular-weight PG was completely degraded by chondroitinase ABC, while a large portion was resistant to chondroitinase AC, indicating the presence of dermatan sulfate (DS). These CS/DS chains were of unusually large size (Mr approximately 150,000) as estimated by chromatography on Sepharose CL-4B, relating the elution position to hyaluronan standards. Moreover, the chains were found to have a lower surface charge density than standard CS, and may therefore be undersulfated. After reduction and alkylation the high-molecular-weight PGs were included on both Sepharose CL-2B and Sephacryl S-1000 columns, eluting at Kav 0.2 and 0.4, respectively. Hence, the high-molecular-weight material appears to consist of large PG complexes, stabilized by intermolecular disulfide bonds. A CS/DSPG of similar size as the reduced monomeric form of the high-molecular-weight PG was found in small amounts in the total extract of 35S-labeled material.
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PMID:Large disulfide-stabilized proteoglycan complexes are synthesized by the epidermis of axolotl embryos. 192 7

Small proteoglycans were dissociatively extracted from normal human thoracic aorta with 4 M guanidine hydrochloride containing protease inhibitors, and purified by Sepharose CL-4B chromatography, dissociative cesium chloride density gradient centrifugation, and diethylaminoethyl cellulose chromatography. The intact proteoglycans migrated in the 270,000-340,000 range on 4-20% sodium dodecyl sulfate polyacrylamide gradient gels. Core proteins prepared following digestion of the intact proteoglycan monomer with chondroitinase ABC consisted of a major Coomassie blue-staining protein band of 50,000 along with a minor band of 44,000. Subsequent studies using endoglycosidases H, F, and N-glycanase demonstrated that mainly complex type N-linked glycans were present on the 50,000 cores while the 44,000 cores appeared to be devoid of N-linked glycans. Western blotting demonstrated that both of these cores were recognized by the monoclonal antibody 2-B-6, indicating the presence of the terminal 4-sulfated unsaturated disaccharide (delta Di-4S) remaining on the linkage region following chondroitinase ABC digestion. In contrast, a diffuse pattern of delta Di-4S epitopes ranging from 50,000 to approximately 60,000 was observed following chondroitinase AC II digestion of the dermatan sulfate proteoglycan, suggesting the presence of iduronate residues in close proximity to the glycosaminoglycan-linkage region. Conversely, the large chondroitin sulfate-proteoglycan core proteins from aorta (Mr 200,000-400,000) did not react with either monoclonal antibody 3-B-3 (recognizing the terminal delta DI-6S) or 2-B-6 following chondroitinase AC II digestion, although both delta DI-4S and delta DI-6S were present on these cores following chondroitinase ABC digestion. Additional studies using antisera against synthetic peptides derived from sequences of the core proteins of human bone small PG I and PG II indicated the presence of both gene products in PG isolated from human thoracic aorta. The Mr approximately 44,000 and 50,000 core proteins represent small PG I type cores while a closely spaced doublet (Mr 49,000 and 51,000) represented small PG II type cores. The results demonstrate that the core proteins of dermatan sulfate proteoglycan from human aorta are heterogeneous in primary structure and in the content of N-linked glycans.
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PMID:Heterogeneity in glycosylation of dermatan sulfate proteoglycan core proteins isolated from human aorta. 212 40

1. Isomeric chondroitin sulfate proteoglycans were extracted from human, bovine, swine and rabbit aortas by 4 M guanidine-HCl and were fractionated and purified by CsCl isopycnic centrifugation, Sepharose CL-4B gel filtration, DEAE-Sepharose ion-exchange chromatography and octyl-Sepharose hydrophobic interaction chromatography. 2. The molecular size and the composition of isomeric chondroitin sulfate proteoglycans varied among species. Variations were also noted in the composition and molecular weight of constituent glycosaminoglycan chains. 3. Observations made on chondroitinase ABC and chondroitinase AC digests of proteoglycans indicate that dermatan sulfate is linked to the core proteins through chondroitin sulfates.
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PMID:Variations in the composition of arterial wall isomeric chondroitin sulfate proteoglycans among different animal species. 212 68


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