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: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteoglycans, metabolically labelled with [3H]leucine and 35SO4(2-), were isolated from the spent media and from guanidinium chloride extracts of cultured human umbilical-vein endothelial cells by using isopycnic density-gradient centrifugation, gel filtration and ion-exchange h.p.l.c. The major proteoglycan species were subjected to SDS/polyacrylamide-gel electrophoresis before and after enzymic degradation of the polysaccharide chains. The cell extract contained mainly a heparan sulphate proteoglycan that has a buoyant density of 1.31 g/ml and a protein core with apparent molecular mass 300 kDa. The latter was heterogeneous and migrated as one major and one minor band. After reduction, the apparent molecular mass of the major band increased to approx. 350 kDa, indicating the presence of intrachain disulphide bonds. The proteoglycan binds to octyl-Sepharose and its polysaccharide chains are extensively degraded by heparan sulphate lyase. The proteoglycans of the medium contained 90% of all the incorporated 35SO4(2-). Here the predominant heparan sulphate proteoglycan was similar to that of the cell extract, but was more heterogeneous and contained an additional core protein with apparent molecular mass 210 kDa. Furthermore, two different chondroitin sulphate proteoglycans were found: one 200 kDa species with a high buoyant density (approx. 1.45 g/ml) and one 100 kDa species with low buoyant density (approx. 1.3 g/ml). Both these proteoglycans have a core protein of molecular mass approx. 47 kDa.
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PMID:Identification of the core proteins in proteoglycans synthesized by vascular endothelial cells. 277

The link proteins of the human intervertebral disc were studied in tissue extracts by sodium dodecyl sulfate/polyacrylamide gel electrophoresis (SDS/PAGE), followed by immunoblotting, using a specific monoclonal antibody. Three link proteins were detected, corresponding in electrophoretic mobility to those present in articular cartilage. As with articular cartilage, the largest link protein predominates in the young, whereas in the adult the smallest link protein is equally abundant and internal fragmentation of the link proteins occurs. Only in the newborn is the quantity of extractable link protein comparable to that from articular cartilage. In the adult, the disc contains much less link protein than is present in autologous articular cartilage. Neither the amount nor heterogeneity of the link protein differs among different levels within the lumbar spine, although the proportions of the three proteins can differ between the anulus fibrosus and nucleus pulposus. The anulus always contained more extractable link protein relative to tissue wet weight than the nucleus, and the nuclear link protein, at least in adolescents, contained a greater proportion of the smallest link protein. Such changes in the quantity and structure of the disc link proteins may affect the properties of the proteoglycan aggregates and, thus, could influence disc function.
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PMID:Effect of age on the abundance and fragmentation of link protein of the human intervertebral disc. 279 26

The N-terminal fragment (G1-G2) of cartilage proteoglycan protein core contains two globular domains, binding region (G1) and a second globular domain (G2), G1-G2 was isolated after mild trypsin digestion of purified proteoglycan aggregates followed by chromatography first on Sepharose CL-2B under associative conditions and then on a TSK-4000 column in 4 M-guanidinium chloride. It migrated as a single band (apparent Mr 150,000) on SDS/polyacrylamide-gel electrophoresis. G2 was isolated by V8-proteinase digestion of G1-G2 followed by aggregation of the G1-containing fragments with hyaluronate and chromatography on TSK-4000. It migrated as a single band on SDS/polyacrylamide-gel electrophoresis of apparent Mr 66,000 after digestion with keratanase. G2 did not interact with proteoglycan monomer, hyaluronate, link protein or other extractable cartilage matrix proteins. A polyclonal antibody raised against G2 did not cross-react with G1 or link protein. These data show that, despite a high degree of sequence similarity, G1 and G2 do not share any functional properties nor have major antigenic sites in common.
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PMID:Isolation of the N-terminal globular protein domains from cartilage proteoglycans. Identification of G2 domain and its lack of interaction with hyaluronate and link protein. 280 45

A neutral proteinase, capable of degrading gelatin, has been found in both an active and a latent form in the medium from the culture of rat mesangial cells. The latent form had an Mr of 80,000-100,000 and could be activated with either 4-aminophenylmercuric acetate or prolonged incubation at neutral pH. The active form of the enzyme was extensively purified. The estimated Mr of the purified enzyme on gel filtration was approximately 200,000, indicating that the active enzyme formed aggregates. However, analysis by SDS/polyacrylamide-gel electrophoresis under reducing conditions showed two protein bands, with Mr 68,000 and 66,000. Both proteins were found to contain proteolytic activity when run on SDS/substrate gels. The enzyme was inhibited by EDTA and 1,10-phenanthroline, but not by inhibitors for cysteine, serine or aspartic proteinases. The enzyme did not digest fibronectin, bovine serum albumin, proteoglycan or interstitial collagen. The enzyme degraded pepsin-solubilized placental type V collagen at 31 degrees C, whereas similarly solubilized type IV collagen was only degraded at higher temperatures. In addition, the neutral proteinase degraded native soluble type IV collagen. It also had activity on insoluble type IV collagen of glomerular basement membrane. The above properties suggest that the mesangial neutral proteinase belongs to the gelatinase group of metalloproteinases and that it may play a role in the normal turnover of extracellular glomerular matrix.
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PMID:The purification and characterization of a glomerular-basement-membrane-degrading neutral proteinase from rat mesangial cells. 284 Aug 92

We report a one-step method for the purification to homogeneity of a cysteine proteinase of Entamoeba histolytica (histolysin) by affinity chromatography of the soluble extract of the parasite on immobilized phenylalanyl(2-phenyl)aminoacetaldehyde semicarbazone. The enzyme has an apparent Mr of 26,000 by SDS/polyacrylamide-gel electrophoresis and 29,000 by gel chromatography. Its pH optimum varies widely, from 5.5 with azocasein to approx. 7 with other protein substrates and benzyloxycarbonylphenylalanyl-L-citrullylaminomethylcourmarin++ + (Z-Phe-Cit-NHMec), and to 9.5 with benzyloxycarbonylphenylalanylarginylaminomethylcoumarin (Z-Phe-Arg-NHMec) and benzyloxycarbonylarginylarginylaminomethylcourmarin (Z-Arg-Arg-NHMec). Values of Km, kcat. and kcat/Km are 1.5 microM, 130 s-1 and 87 X 10(6) M-1.s-1 for Z-Arg-Arg-NHMec, and 32 microM, 0.4 s-1 and 0.012 x 10(6) M-1.s-1 for Z-Phe-Arg-NHMec, respectively, at pH 7.5 and 37 degrees C. The enzyme is inhibited by leupeptin and such inhibitors of cysteine proteinases as L-transepoxysuccinyl-L-leucylamido-4-(guanidino)butane, peptidyldiazomethanes, iodoacetic acid and chicken cystatin. The tentative N-terminal amino acid sequence of the enzyme closely resembles that of papain. Histolysin does not degrade type I collagen or elastin, but it is active against cartilage proteoglycan and kidney glomerular basement-membrane collagen. It also detaches cells from their substratum in vitro, and could well play a role in tissue invasion.
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PMID:Affinity purification and biochemical characterization of histolysin, the major cysteine proteinase of Entamoeba histolytica. 289 37

(1) The degradation of glomerular basement membrane and some of its constituent macromolecules by human kidney lysosomal cysteine proteinases has been investigated. Three cysteine proteinases were extracted from human renal cortex and purified to apparent homogeneity. These proteinases were identified as cathepsins B, H and L principally by their specific activities towards Z-Arg-Arg-NHMec, Leu-NNap and Z-Phe-Arg-NHMec, respectively, and their Mr on SDS-polyacrylamide gel electrophoresis under reducing conditions. (2) Cathepsins B and L, at acid pH, readily hydrolysed azocasein and degraded both soluble and basement membrane type IV and V collagen, laminin and proteoglycans. Their action on the collagens was temperature-dependent, suggesting that they are only active towards denatured collagen. Cathepsin L was more active in degrading basement membrane collagens than was cathepsin B but qualitatively the action of both proteinases were similar, i.e., at below 32 degrees C the release of an Mr 400,000 hydroxyproline product which at 37 degrees C was readily hydrolysed to small peptides. (3) In contrast, cathepsin H had no action on soluble or insoluble collagens or laminin but did, however, hydrolyse the protein core of 35S-labelled glomerular heparan sulphate-rich proteoglycan. (4) Thus renal cysteine proteinases form a family of enzymes which together are capable of degrading the major macromolecules of the glomerular extracellular matrix.
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PMID:The potential role of human kidney cortex cysteine proteinases in glomerular basement membrane degradation. 292 4

In order to determine if either the proteoglycans or collagen in the cartilagenous epiphyses of a Miniature Poodle with spondyloepiphyseal dysplasia were abnormal, the cartilage was dissociatively extracted in 4 M guanidine HCl in the presence of protease inhibitors and subjected to isopycnic cesium chloride dissociative density gradient ultracentrifugation. Dissociative extraction solubilized 97% of the uronic acid and 88% of the protein. Uronic acid distributed anomalously in the density gradient in that about 1/3 was recovered in each of the D1 (1.58 g/ml), D2 (1.49 g/ml) and D3 (1.44 g/ml) fractions. Proteoglycans in the D1, D2 and D3 fractions also eluted from Sepharose CL-2B columns in a manner indicative of monomers of a smaller apparent hydrodynamic size than those from normal canine growth plate or articular cartilage. D1, D2 and D3 monomers subjected to the sodium borohydride reaction followed by chromatography on a Sepharose CL-6B column yielded glycosaminoglycan chain molecular weights of 10,200 (D1), 7600 (D2) and 6200 (D3). High pressure liquid chromatography on a Whatman Partisil 10PAC column of the chondroitinase AC II digests of D1, D2 and D3 fractions revealed that 60% of the D1, 81% of the D2 and 88% of the D3 unsaturated disaccharides eluted in the delta DiOS-delta DiHA position. Subsequent HPLC of the unsaturated disaccharides on the Hypersil APS column resulted in the recovery of 97% of the nonsulfated unsaturated disaccharides in the delta DiOS position. Associative extraction in 0.5 M guanidine followed by associative gradient ultracentrifugation resulted in the recovery of 27% of the uronic acid in the aA1 and 47% in the aA2 fractions. Two dimensional SDS gel electrophoresis of the CNBr peptides of the collagen isolated by pepsin digestion and 0.9 M NaCl precipitation revealed type II collagen. This study has demonstrated that spondyloepiphyseal dysplasia in a Miniature Poodle is characterized by cartilage containing undersulfated chondroitin sulfate proteoglycan.
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PMID:Undersulfated chondroitin sulfate in cartilage from a miniature poodle with spondyloepiphyseal dysplasia. 294 51

The present studies were undertaken to confirm the presence and identity of a putative proteoglycan associated with laminin in neurite-promoting factor complexes isolated from rat schwannoma cell conditioned medium. Sucrose density gradient centrifugation of the complex resolved two laminin-associated Na2[35S]O4-labeled peaks which were termed Pools A and B. Both pools had nearly all their [35S] cpms associated with glycosaminoglycan, contained heparan sulfate-proteoglycan core protein antigen and displayed a similarly high neurite promoting potency relative to their laminin contents. However, Pool A contained about twice as many [35S] cpms and twice as much proteoglycan core protein per laminin than Pool B. Seventy percent of Pool A cpms was associated with heparan sulfate and 30% with chondroitin sulfate whereas the inverse was true for Pool B. Treatment with heparitinase and/or chondroitinase ABC caused laminin in either pool to elute at lower salt concentrations from DEAE cellulose. In SDS-PAGE the [35S] cpms of both pools ran with the same mobility as laminin but could be separated from laminin under reducing conditions. The Pool A cpms remained at 900 KD and the Pool B cpms spread over the 200-900 KD range. By rotary shadowing electron microscopy, Pool B fractions contained primarily cross-shaped laminin images, often associated with proteoglycan-like images. Pool A fractions contained i) dense, aggregated images including intact laminin from which emanated proteoglycan-like strands, ii) circular images bearing globular domains and less commonly, iii) distorted cross-shaped laminin-like images. These studies support the existence of at least two forms of laminin-proteoglycan complexes which differ in biochemical, immunochemical and ultrastructural characteristics.
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PMID:Association of laminin with heparan and chondroitin sulfate-bearing proteoglycans in neurite-promoting factor complexes from rat schwannoma cells. 296 Sep 8

A chondroitin sulfate-dermatan sulfate proteoglycan was isolated from bovine aorta intima by extraction of the tissue by 4 M guanidine hydrochloride. The proteoglycan was purified by CsCl isopycnic centrifugation followed by gel filtration and ion-exchange chromatography. The proteoglycan had 21.9% protein, 22.1% uronate, 21.4% hexosamine and 10.8% sulfate. Glycosaminoglycan chains obtained from the proteoglycan by beta-elimination were resolved by gel filtration into two fractions, one containing chondroitin 6-sulfate with an approximate molecular weight of 49 000 and the other containing chondroitin 4-sulfate and dermatan sulfate in a proportion of 2:1 with an approximate molecular weight of 37 000. Digestion of the proteoglycan by chondroitinase ABC or AC yielded a protein core with similar composition and behavior in gel filtration and SDS-polyacrylamide gel electrophoresis. An approximate molecular weight of 180 000 was estimated for the core protein. Dermatan sulfate chains with an approximate molecular weight of 10 000 were observed only in the digest of chondroitinase AC. Limited trypsin hydrolysis of the proteoglycan yielded three peptide fragments containing chondroitin 6-sulfate, chondroitin 4-sulfate and dermatan sulfate in varied proportions. A tentative structure for the proteoglycan was suggested.
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PMID:Organization of glycosaminoglycan chains in a chondroitin sulfate-dermatan sulfate proteoglycan from bovine aorta. 308 26

The largest proteoglycan monomer of baboon (Papio papio) articular cartilage was isolated and the protein rich core was obtained after chondroitinase AC II and keratanase digestions. On SDS-PAGE the core yielded a single band with apparent Mr of 290,000. Tryptophanyl peptide bond cleavage of the core with N-chlorosuccinimide/urea gave 4 peptides with apparent Mr of 105,000, 66,000, 62,000 and 56,000
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PMID:The protein core of the largest proteoglycan monomer of articular cartilage. Gel electrophoretic pattern and tryptophanyl peptide bond cleavage. 313 51


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