DrugBank:APRD00216 - FACTA Search

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Query: DrugBank:APRD00216 (ABC)
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The amount of glycosaminoglycan (GAG) in dry costal cartilage tissue of rats decreased with aging, while the GAG content in mg DNA (unit cartilage cell) remained the same with aging. These results can be explained by the finding that the total number of cartilage cells decreased with aging. Electrophoretic analysis showed that chondroitin 4-sulfate was the major GAG in rat costal cartilage of various ages. Rat costal cartilage of different ages was incubated with radioactive precursors, and newly synthesized GAG was prepared and the radioactivity analyzed to determine the biosynthetic activity. As to changes in the radioactivity uptake with aging per mg dry cartilage tissue, aging influenced [35S]sulfate incorporation into GAG more significantly than [3H]glucosamine incorporation into GAG. There was a significant decrease in the specific radioactivity of [35S]sulfate per mg DNA (unit cartilage cell), whereas the specific radioactivity of [3H]glucosamine per mg DNA did not change significantly with aging. Both the total sulfotransferase activity and the specific activity per mg DNA decreased significantly with aging. Analysis of disaccharide units formed after chondroitinase ABC digestion of labeled GAG isolated from young and old cartilage showed that the percentage of incorporation of [3H]glucosamine into deltaDi-OS increased significantly with aging. These results suggested that the appearance of nonsulfated positions in the structure of the chondroitin sulfate chain increased with aging. On the basis of gel chromatography on Bio-Gel A-1.5 m no significant difference in the approximate molecular size of chondroitin sulfate was observed between the young and old GAG samples. The present study indicated that the sulfation of chondroitin sulfate chains from rat costal cartilage decreased with the process of aging.
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PMID:The effect of aging on the synthesis of hexosamine-containing substances from rat costal cartilage. A decrease in sulfation of chondroitin sulfate with aging. 42 44

Rat mesangial cells selected by long-term culture of glomeruli exhibited a hill and valley appearance in the confluent state and were stained with antibodies against vimentin and desmin, suggesting that they are smooth muscle-like mesangial cells. The glycoconjugates produced by the cells were metabolically labeled with [35S]sulfate and [3H]glucosamine and extracted with 4 M guanidine HCl containing 0.5% Triton X-100. The radiolabeled glycoconjugates were separated on DEAE-Sephacel and compared with those synthesized by glomeruli labeled in the same conditions. Of the three major sulfated glycoconjugates, sulfated glycoprotein (17% of the total 35S-labeled macromolecules), heparan sulfate proteoglycan (35%), and chondroitin sulfate proteoglycan (30%) synthesized by glomeruli, the cultured mesangial cells synthesized mainly chondroitin sulfate proteoglycan (more than 90%). After purification by CsCl density-gradient centrifugation, the chondroitin sulfate proteoglycan from the cell layer was separated on Bio-Gel A-5m into three molecular species with estimated Mr values of 230,000, 150,000, and 40,000-10,000, whereas that released into the medium consisted of a single species with an Mr of 135,000. In the beta-elimination reaction, the former two larger proteoglycans released chondroitin sulfate chains with Mr of an apparent 30,000 and the latter from the medium released the glycosaminoglycan chains with an Mr of 36,000. The Mr of the smallest proteoglycan from the cell layer was not significantly changed after beta-elimination, indicating that this species had only a small peptide, if any. Analysis with chondroitinase AC-II and ABC demonstrated that all the chondroitin sulfates were copolymers consisting of glucuronosyl-N-acetylgalactosamine (65-74%) having sulfate groups at position 4 (53-57%) or positions 4 and 6 (10-14%) of hexosamine moieties and iduronosyl-N-acetylgalactosamine (21-26%) having sulfate groups at position 4 (17-23%) or positions 4 and 6 (about 3%) of hexosamine moieties; namely chondroitin sulfate H type. These characteristics of the chondroitin sulfate H proteoglycans synthesized by the cultured mesangial cells were very similar to those of the proteoglycans synthesized by glomeruli. Thus, we conclude that most, if not all, of the glomerular chondroitin sulfate proteoglycans are synthesized by mesangial cells. The cultured mesangial cells were also found to synthesize hyaluronic acid at a similar level to chondroitin sulfate proteoglycan. Based on the characteristics of this glycosaminoglycan, we discuss the possible role of hyaluronic acid produced by mesangial cells.
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PMID:Isolation and characterization of proteoglycans synthesized by cultured mesangial cells. 240 66

Confluent cultures of human endothelial cells deposit into extracellular matrix (ECM) distinct heparan sulfate proteoglycans (HSPG) which modulate acidic fibroblast growth factor's (aFGF) ability to stimulate human endothelial cell mitogenic capacity. Extracellular matrix 35S-HSPG were isolated from cultures metabolically labelled with Na235SO4 by DEAE-Sepharose, Sepharose CL-4B, and aFGF-Affi-Gel 15 column chromatography and identified by resistance to chondroitinase ABC and sensitivity to nitrous acid. Fifty to sixty percent of the 35S-HSPG deposited into ECM do not bind aFGF. The bound 35S-HSGP (40-50% of the total counts applied) eluted from the aFGF-Affi-Gel column after the addition of buffer containing 2 M NaCl. aFGF-binding and aFGF-nonbinding 35S-HSPG were individually pooled and further purified by Sepharose CL-4B column chromatography. 35S-HSPG which bind aFGF, designated HSPGP, were 100-fold superior to heparin in augmenting the mitogenic efficacy of aFGF in sparse proliferating cultures. In contrast, however, 35S-HSPG, which did not bind aFGF, designated HSPG1, inhibited aFGF-stimulated proliferation in both sparse and subconfluent endothelial cell cultures. The majority of the biological activity of both aFGF-potentiating HSPGP and aFGF-inhibitory HSPG1 was contained in the glycosaminoglycan chains released by alkaline borohydride treatment of intact HSPGP or HSPG1, respectively. 3H-Core protein derived from HSPGP or HSPG1 contained only minor biological activity. The ability of heparitinase or heparinase (Flavobacterium heparinum) to abolish biological activity differed, depending upon the HSPG tested, also suggested that these are two distinct HSPGs.
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PMID:Extracellular matrix heparan sulfate proteoglycans modulate the mitogenic capacity of acidic fibroblast growth factor. 252 52

Administration of (D+) catechin (100 mg/kg body wt) to rats resulted in an increase in the amount of total sulphated glycosaminoglycans (GAG) in liver. The increase was more pronounced in the case of heparan sulphate than chondroitin sulphate and dermatan sulphate. The liver slices prepared from catechin-treated rats showed a significant increase in the rate of incorporation of 35S-sulphate into GAG. Similarly there was a concentration-dependent increase in the rate of 35S-sulphate incorporation into GAG by normal liver slices in presence of catechin in vitro. Susceptibility to nitrous acid degradation and chondroitinase ABC digestion showed that more than 80% of the GAG labelled in vivo with 35S-sulphate, was heparan sulphate and about 10% chondroitin sulphate and dermatan sulphate. Gel filtration of the 35S-labelled material isolated from livers of normal and catechin-treated animals over sephacryl S-300 did not show any difference probably excluding the possibility of free GAG chains initiated on catechin or any of its metabolites in vivo. These results indicate that catechin stimulates the synthesis of sulphated GAG, particularly heparan sulphate in liver.
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PMID:D(+)catechin enhances heparan sulphate content in rat liver. 253 88

Two discrete peptido-keratan sulphate fragments were isolated via chondroitinase ABC and trypsin digestion of a proteoglycan aggregate fraction prepared from bovine femoral head cartilage (six year old animals). The larger fragments (K(av) = 0.07, CL-6B) contained peptides substituted with several keratan sulphate (KS) chains from the KS-rich region of the proteoglycan and the smaller fragments (K(av) = 0.5, CL-6B) contained peptides with, perhaps, only one KS chain and the stubs of post-chondroitinase-treated chondroitin sulphate chains. The two peptido-KS samples and the KS chains derived from these by alkaline borohydride reduction were characterised by 13C-NMR spectroscopy. The two populations of KS chains were also examined by chromatography (Sephadex G-75), and keratanase digestion followed by chromatography on Bio-Gel P-10. From the results it was concluded that the KS chains from the two major trypsin-derived peptido-KS fragments had similar sulphation levels, distributions of hydrodynamic sizes and susceptibilities to keratanase.
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PMID:Structural studies of two populations of keratan sulphate chains from mature bovine articular cartilage. 253 85

In a previous study we described a family of monoclonal antibodies directed against tracheal antigens having a variety of cellular and subcellular distributions. In the present study, we have extended our findings on four representative antibodies to determine the periodate sensitivity, glycosidase sensitivity, and apparent molecular weight of the corresponding antigens. Since mild periodate oxidation selectively cleaves carbohydrate moiety leaving amino acids intact, loss of antigenicity following this treatment suggests the involvement of sugar residues in the antigenic determinant. This can be confirmed by testing the sensitivity of the antigens to specific glycosidases. By enzyme-linked immunosorbent assay (ELISA), all four antibodies were found to have highest affinity for void volume components isolated by Bio-Gel A15m chromatography of the total tracheal secretion. Further analysis of this void volume material by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions followed by immunoblot analysis revealed that all antigens were carried by high-molecular-weight species (greater than 200,000) which were periodate-Schiff positive but reacted poorly with Coomassie blue. In parallel experiments using immunofluorescence and ELISA, antibody binding was compared under control conditions and following periodate treatment of antigens under varying intensities (10 mM IO4-, 10 min, 4 degrees C; 50 mM IO4-, 1 h, 4 degrees C; 100 mM IO4-, 12 h, 20 degrees C). Similar results were obtained with the two methods, indicating a partial loss of antigenicity for one of the four antigens following the mildest periodate treatment, and total loss of antigenicity for all four antigens following each of the two prolonged treatments. All four antigens showed marked sensitivity to digestion with mixed exoglycosidases and three antigens were also susceptible to endo-beta-galactosidase digestion. Antigenicity was not decreased during incubation with chondroitinase ABC, heparitinase, or heparinase. Immunofluorescence analysis of tracheal tissue sections showed that the four antibodies recognized determinants in different locations, including gland and goblet cell cytoplasmic granules and the apical epithelial membrane. The characteristic immunofluorescence patterns of all antibodies were abolished by periodate incubation of the tracheal sections. Thus, the four antibodies appear to recognize carbohydrate antigens carried by high-molecular-weight glycoproteins, each with different cellular origins.
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PMID:Tracheal carbohydrate antigens identified by monoclonal antibodies. 301 42

The glycosaminoglycans that exist in rabbit bone marrow were analyzed chemically, and their in situ localization was studied immunohistochemically. Femoral bone marrow of 3-month-old rabbits was defatted with organic solvents. Glycosaminoglycans were prepared from the defatted tissue after its digestion with pronase, treatment with mild alkali, and then digestion with DNase-I. The tissue contained glycosaminoglycans equivalent to 195 mg of hexosamine per femur, which accounted for 27.3% of the total hexosamine in the tissue. Studies with hyaluronidase from Streptomyces hyalurolyticus and chondroitinase ABC showed that the glycosaminoglycans were composed of hyaluronic acid (16% of the total glycosaminoglycan) and chondroitin 6-sulfate (79%). The chondroitin 6-sulfate was separated on Bio-Gel A-0.5m gel into two molecular species with mol wt of greater than 12,000 (Kd greater than 0.2) and approximately 8,000 (Kd = 0.47). Bone marrow digested with chondroitinase ABC and then treated with three monoclonal antibodies 4/8/9-A-2, 5/6/3-B-3, and 5/6/1-B-5, which were specific for unsaturated 4-sulfated, 6-sulfated, and nonsulfated disaccharide structures, respectively, at the nonreducing end of chondroitin sulfate chains, reacted with only 5/6/3-B-3. This result indicated that the chondroitin sulfate, isomer in the bone marrow is chondroitin 6-sulfate, consistent with the biochemical results. The chondroitin 6-sulfate was localized mainly in the extracellular compartment and was considered to be involved in construction of the hemopoietic microenvironment in the bone marrow.
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PMID:Isolation, characterization, and localization of glycosaminoglycans in rabbit bone marrow. 311 61

The cell-associated proteoglycans synthesized by three dog mastocytoma cell lines were isolated and their structural features compared. The lines were propagated as subcutaneous tumors in athymic mice for over 25 generations. In primary cell culture, all three lines incorporated [35S]sulfate into high molecular weight proteoglycans which were heterogeneous in size and glycosaminoglycan content. Two lines, BR and G, synthesized both a heparin proteoglycan (HPG) and a chondroitin sulfate proteoglycan (ChSPG) in different proportions. The third line, C2, synthesized predominantly a ChSPG with little or no detectable heparin. Gel filtration of the 35S-labeled HPG and ChSPG from the BR line on Sepharose CL-4B in dissociative conditions (4 M guanidine, Triton X-100) yielded a major polydisperse peak (Kav = 0.22) accounting for 70% of 35S activity. Under aggregating conditions (0.1 M sodium acetate) on Sepharose CL-4B, the BR proteoglycans eluted in the excluded volume. Proteoglycans from lines G and C2 also eluted in the void volume under nondissociative conditions, however the C2 line yielded additional fractions of smaller hydrodynamic size (Kav = 0.81) suggesting the presence of intracellular proteoglycan cleavage products or incompletely processed proteoglycans. As assessed by dissociative chromatography on Sepharose CL-4B, proteoglycans from the BR line were resistant to proteinase cleavage under conditions which degraded a rat chondrosarcoma proteoglycan. For all lines, glycosaminoglycans released by pronase/alkaline-borohydride had molecular weights ranging from 20,000 to 50,000 on gel filtration. For line BR, 75% of 35S-labeled glycosaminoglycans were degraded to oligosaccharides by nitrous acid, and the remaining 25% were degraded by chondroitinase ABC. Corresponding percentages for line G were 89% and 11%, and for line C2, 2% and 98%. Paper chromatography of the chondroitinase digestion products from lines BR and C2 showed products corresponding to unsaturated standards delta Di-diSB and delta Di-diSE, derived from the disaccharides IdoUA-2-SO4----GalNAc-4-SO4 and GlcUA----GalNAc-4,6-diSO4 respectively, in addition to smaller amounts of monosulfated disaccharides. Glycans from lines C2 and BR contained small quantities of a trisulfated disaccharide which was degraded to delta Di-diSB upon incubation with chondro-6-sulfatase. The results demonstrate the simultaneous presence of heparin and polysulfated chondroitin sulfate in dog mast cells of clonal origin.
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PMID:Dog mastocytoma proteoglycans: occurrence of heparin and oversulfated chondroitin sulfates, containing trisulfated disaccharides, in three cell lines. 314 22

The plasma membranes of the nerve terminal and the postsynaptic cell of electric organ are separated by a basal lamina. We have purified, biochemically characterized, and visualized in the electron microscope a macromolecule which appears to anchor the nerve terminal to this basal lamina. This molecule, terminal anchorage protein 1 (TAP-1) is associated with the nerve terminal membrane of electric organ, has the properties of an integral membrane protein, and is tightly bound to the extracellular matrix (Carlson, S.S., P. Caroni, and R.B. Kelly. 1986. J. Cell Biol. 103:509-520). TAP-1 can be solubilized from an electric organ extracellular matrix preparation with guanidine-HCl/3-[(3-cholamidopropyl)-dimethylammnio]-1-propane sulfonate and purified by a combination of permeation chromatography on Sephacryl S-1000, sedimentation velocity, and ion exchange chromatography on DEAE Sephacel. The total purification from electric organ is 91-fold and results in at least 86% purity. Digestion of the molecule with chondroitin ABC or AC lyase produces a large but similar shift in the molecular weight of the molecule on SDS-PAGE. The presence of chondroitin-4- or 6-sulfate is confirmed by identification of the isolated glycosaminoglycans with cellulose acetate electrophoresis. Gel filtration of the isolated chains indicates an average molecular weight of 42,000. Digestion of TAP-1 with other glycosaminoglycan lyases such as heparitinase indicates that only chondroitin sulfate is present. These results demonstrate that TAP-1 is a proteoglycan. Visualization of TAP-1 in the electron microscope reveals a "bottlebrush" structure expected for a proteoglycan. The molecule has an average total length of 345 +/- 17 nm with 20 +/- 2 side projections of 113 +/- 5 nm in length. These side projections are presumably the glycosaminoglycan side chains. From this structure, we predict that the TAP-1 glycosaminoglycan side chains should have a molecular weight of approximately 50,000, which is in close agreement with the biochemical studies. Both biochemical and morphologic data indicate that TAP-1 has a relative molecular weight of approximately 1.2 X 10(6). The large size of TAP-1 suggests that this molecule could span the synaptic cleft and make a significant contribution to the structure of the nerve terminal basal lamina of electric organ.
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PMID:Nerve terminal anchorage protein 1 (TAP-1) is a chondroitin sulfate proteoglycan: biochemical and electron microscopic characterization. 369 7

35S-labelled heparins were recovered from adipose tissue, hearts, lungs, peritoneal cavities and skins of rats given H2(35)SO4. Their purification involved incubation with Pronase, precipitation with cetylpyridinium chloride in 1.0 M-NaCl, gradient elution from DEAE-Sephacel and incubation with chondroitinase ABC. Each product was divided into proteoglycan and "depolymerization products' fractions by gel filtration on Bio-Gel A-15m. Heparin chains were released from a portion of each proteoglycan fraction by beta-elimination with NaOH. Proteoglycans, chains and depolymerization products were separated by gradient elution from a column of antithrombin-agarose into fractions with no affinity, low affinity and high affinity for antithrombin. The relative sizes of the products were determined by gel filtration on columns of Bio-Gel A-50m, A-15m, A-1.5m and A-0.5m. Skin was the major source of heparin and contained the largest proteoglycans and the lowest proportion of depolymerization products. Lungs contained the smallest proteoglycans, the smallest depolymerization products and the highest proportion of depolymerization products. The highest proportions of proteoglycans, chains and depolymerization products with high affinity for antithrombin were found in adipose tissue. The lowest proportions of each of these fractions were found in the peritoneal cavity. The data suggest that there was relatively little biosynthesis of sites with high affinity for antithrombin in peritoneal-cavity mast cells and that heparin catabolism was most active in lungs. Each source of heparin was unique with respect to both biosynthesis and subsequent breakdown of its proteoglycans.
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PMID:Rat heparins. A study of the relative sizes and antithrombin-binding characteristics of heparin proteoglycans, chains and depolymerization products from rat adipose tissue, heart, lungs, peritoneal cavity and skin. 382 37

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