EC:3.1.6.4 - FACTA Search

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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)

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

Using monospecific antisera and immunofluorescence microscopy, proteoglycan monomer (PG), and link proteins were demonstrated throughout the extracellular matrix of bovine articular cartilage. A narrow band of strong pericellular staining was usually observed for both molecules, indicating a pericellular concentration of proteoglycan monomer: this conclusion was supported by dye-binding studies. Whereas PG was evenly distributed throughout the remaining matrix, more link protein was detectable in interterritorial sites in middle and deep zones. Well-defined zones of weaker territorial staining for link protein stained strongest for chondroitin sulfate. Trypsin treatment of cartilage resulted in a loss of most of the PG staining, but some selective retention of link protein, particularly around chondrocytes in the superficial zone at and near the articular surface. This residual staining was largely removed if sections were fixed after chondroitinase treatment. After extraction of cartilage with 4M guanidine hydrochloride, only PG remained and this was concentrated in the superficial zone. These observations are shown to support the concept of aggregation of PG and link protein with hyaluronic acid (HA) in cartilage matrix, and the binding of PG and link protein to HA, which is attached to the chondrocyte surface. Culture of cartilage depleted of PG and link protein by trypsin demonstrated that individual chondrocytes can secrete both PG and link proteins and that the organization of cartilage matrix can be regenerated in part over a period of 4 days.
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PMID:Localization of proteoglycan monomer and link protein in the matrix of bovine articular cartilage: An immunohistochemical study. 615

An explant culture of 15 cynomolgus monkey corneas was incubated with [35S]sulfate and [2-3H]mannose as labeling precursors. A 4 M guanidine HCl extract of the corneal stromas was prepared and combined with a 4 M guanidine HCl extract of stromas from 300 unlabeled corneas. The keratan sulfate proteoglycans in the combined extracts were purified by a combination of DEAE-cellulose chromatography, chondroitinase ABC digestion to remove chondroitin-dermatan sulfate proteoglycans, and elution from immobilized concanavalin A. The purified keratan sulfate proteoglycan was digested with papain and the digest was eluted on DEAE-Sephacel. The unbound fraction contained 59% of the 3H activity and consisted of intact oligosaccharide-peptides. The bound fraction, consisting of keratan sulfate chains linked to peptides, eluted during a linear 0-0.75 M NaCl gradient as a peak centered at approximately 0.6 M NaCl and contained 41% of the 3H and all of the 35S activity in the original proteoglycan. The chains were digested with endo-beta-galactosidase, and the digest was eluted on DEAE-Sephacel with a linear 0-0.75 M NaCl gradient. Most of the sulfated digestion fragments from the chains eluted as several distinct peaks during the gradient. All the 3H activity eluted in the unbound volume along with a small proportion of 35S activity. This unbound fraction was eluted on Bio-Gel P-10 to give a 3H peak (Kav = 0.46) well resolved from the remaining 35S activity which eluted near the total volume. This 3H peak contained the oligosaccharide-peptides derived from the linkage region between the keratan sulfate chains and the core protein. Structural analyses of the linkage region oligosaccharides and the intact oligosaccharides (Nilsson, B., Nakazawa, K., Hassell, J.R., Newsome, D.A., and Hascall, V.C. (1983) J. Biol. Chem. 258, 6056-6063) in combination with the 3H-labeling data suggest that the intact keratan sulfate proteoglycans contain an average of about one intact oligosaccharide per keratan sulfate linkage site.
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PMID:Purification of keratan sulfate proteoglycan from monkey cornea. 622 39

The biologic properties of two major proteoglycans of bovine aorta, heparan sulfate proteoglycan and chondroitin sulfate-dermatan sulfate proteoglycan were compared. The heparan sulfate proteoglycan was isolated either by elastase digestion or by 4.0 M guanidine hydrochloride extraction, of aorta tissue, fractionated by CsCl isopycnic centrifugation and purified by chondroitinase ABC treatment. The first method resulted in considerably greater yield (about 70% of the total heparan sulfate proteoglycan of the tissue) than the second procedure (12% of total). The chondroitin sulfate-dermatan sulfate proteoglycan was obtained by 4.0 M guanidine-HCl extraction of aorta tissue followed by CsCl isopycnic centrifugation. The chemical composition of both heparan sulfate proteoglycan preparations was similar. Unlike the chondroitin sulfate-dermatan sulfate proteoglycan, which eluted in the void volume of Sepharose CL-6B column, the heparan sulfate proteoglycan preparations were each resolved into a high molecular weight fraction (kav = 0.18 and 0.13) and a low molecular weight fraction (kav = 0.47 and 0.36). The heparan sulfate proteoglycan preparations exhibited significantly more potent anticoagulant and platelet aggregation inhibitory activities than the chondroitin sulfate-dermatan sulfate proteoglycan. The protein core of the proteoglycan molecules did not seem to be essential for their hemostatic properties. The complex forming ability of the heparan sulfate proteoglycan with serum low density lipoproteins (LDL) was much less than that of chondroitin sulfate-dermatan sulfate proteoglycan in the presence and absence of Ca2+. Interaction between heparan sulfate proteoglycan and LDL was also much more sensitive to changes in the ionic strength of the medium than that of chondroitin sulfate-dermatan sulfate proteoglycan and the lipoprotein. Since the total sulfate content of both proteoglycans is almost similar, the smaller molecular size and hence the lower overall charge density of the heparan sulfate proteoglycan appears to be partly responsible for its low affinity for LDL. The differences in biologic properties of the two proteoglycans might have implications in the pathophysiology of cardiovascular diseases.
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PMID:Hemostatic properties and serum lipoprotein binding of a heparan sulfate proteoglycan from bovine aorta. 622 69

The structural and immunological properties of the glycosaminoglycans and the core proteins of bovine nasal cartilage proteoglycan and the proteoglycans produced by rabbit articular chondrocytes in spinner and monolayer culture were compared. Culture medium with 35SO4- or 3H-serine-labeled proteoglycan was mixed with bovine nasal cartilage 4M guanidine-HCl extract and digested with trypsin. The proteoglycan fragments were then isolated by DEAE-cellulose chromatography and fractionated by dissociative CsCl density gradient centrifugation. Approximately 90% of the 35SO4 incorporated into proteoglycan by the cultured chondrocytes was in chondroitin sulfates and about 5% in keratan sulfate. Although there was considerable overlap in the Sepharose 4B elution of the tryptic proteoglycan fragments of highest buoyant density, some monolayer-produced proteoglycan fragments eluted earlier and some spinner-produced proteoglycan fragments eluted later than the proteoglycan fragments from bovine nasal cartilage. These differences in apparent fragment size could relate to differences in glycosaminoglycan chain length, since the glycosaminoglycans released by treatment with alkali from monolayer-produced proteoglycan in part eluted from Sepharose 4B earlier and those from spinner-produced proteoglycan in part eluted later than the chondroitin sulfate chains released from bovine cartilage proteoglycan. After digestion with chondroitinase ABC, 3H-serine-labeled high density tryptic proteoglycan fragments from monolayer and spinner culture yielded Sepharose 6B elution profiles which were similar to each other but did not coincide with the peaks of carbazole reactivity found with similarly treated fragments of bovine nasal cartilage proteoglycan. Cross-reactivity was demonstrated by radioimmunoautography between bovine cartilage and rabbit chondrocyte proteoglycan fragments restricted to gradient fractions of low buoyant density, but immunological cross-reactivity was not found for the antigens associated with the keratan sulfate-rich and chondroitin sulfate-bearing tryptic fragments of bovine nasal cartilage proteoglycan. These studies indicate that the proteoglycan core proteins produced by rabbit articular chondrocytes in monolayer and spinner culture are, in part, different from the core protein of bovine nasal cartilage proteoglycan and that the three proteoglycans differ in the length of some of their chondroitin sulfate chains.
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PMID:A comparison of the proteoglycans produced by rabbit articular chondrocytes in monolayer and spinner culture and those of bovine nasal cartilage. 622 50

Glycosaminoglycan (GAG) was extracted from the porcine thyroid gland with a buffer containing 5.3 M guanidine-HCl and proteolytic enzyme inhibitors and was fractionated by subsequent isodensity CsCl centrifugation. 60% of uronic acid positive materials was accumulated in the bottom one-fourth fraction with high buoyant density. More than 90% of this uronic acid positive material in the thyroid tissue was heparin or heparan sulfate (sensitive to nitrous acid treatment) and the rest was chondroitin sulfate or dermatan sulfate (sensitive to chondroitinase ABC treatment). When the accumulated high buoyant density GAG was analyzed on a Sepharose CL-6-B column, approximately 14% of the heparin sulfate were in the macromolecular portion as a form of proteoglycan because it was destroyed by the papain digestion or alkaline borohydride treatment which extensively digests protein or releases GAG from protein by the elimination reaction, respectively. This study demonstrates the existence of heparin sulfate proteoglycan in thyroid tissue for the first time.
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PMID:Presence of heparan sulfate proteoglycan in thyroid tissue. 623 Nov 80

Retinas were labeled in culture with [3H]glucosamine or [3H]leucine and [35S]sulfate and extracted sequentially with physiologically balanced saline and 4 M guanidine HCl. They were dialyzed into associative conditions (0.5 M NaCl) and chromatographed on agarose columns. Under these conditions, some of the proteoglycans were associated in massive complexes that showed low buoyant densities when centrifuged in CsCl density gradients under dissociative conditions (4 M guanidine HCl). Much of the label in these complexes was in molecules other than proteoglycans. Most of the proteoglycans, however, were included on the agarose columns, where they appeared to be constitutionally of low buoyant density. They resisted attempts to separate potential low buoyant density contaminants from the major proteoglycans by direct CsCl density gradient centrifugation or by the fractionation of saline or 8 M urea extracts on diethylaminoethyl-Sephacel. The diethylaminoethyl-Sephacel fractions were either subjected to CsCl density gradient centrifugation or were chromatographed on Sephacryl S-300, in both cases before and after alkaline cleavage, to confirm the presence of typical O-linked glycosaminoglycans. The medium and balanced salt extracts were enriched in chondroitin sulfate and other sulfated macromolecules, possibly highly sulfated oligosaccharides, that resisted digestion by chondroitinase ABC but were electrophoretically less mobile than heparan sulfate. Guanidine HCl or urea extracts of the residues were mixtures of high and low density proteoglycans that were enriched in heparan sulfate.
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PMID:Low buoyant density proteoglycans from saline and dissociative extracts of embryonic chicken retinas. 636 28

Isolated rabbit glomeruli were incubated in vitro with 35SO4 in order to analyze the proteoglycans synthesized. Proteoglycans extracted with 4 M guanidine HCl from whole isolated glomeruli and from purified glomerular basement membrane (GBM) were analyzed by gel filtration chromatography. Two types of sulfated proteoglycans were found to be synthesized by rabbit glomeruli and these contained either heparan sulfate or chondroitin/dermatan sulfate glycosaminoglycan chains. These glycosaminoglycans were characterized by their sensitivity to selective degradation by nitrous acid or chondroitinase ABC, respectively. The major proteoglycan extracted from the whole glomeruli was a chondroitin/dermatan sulfate species (75%), while purified GBM contained mostly heparan sulfate (70%). The glycosaminoglycan chains were estimated to be about 12,000 molecular weight which is consistent with previous estimates for similar molecules extracted from the rat GBM.
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PMID:Biosynthesis of proteoglycans by isolated rabbit glomeruli. 662 17

Ruthenium red and toluidine blue O precipitates were described associated with lathyritic elastic fibers in aortas of chickens treated with beta-aminopropionitrile fumarate (I. Pasquali-Ronchetti, C. Fornieri, I. Castellani, G. M. Bressan, and D. Volpin (1981). Alterations of the connective tissue components induced by beta-aminopropionitrile. Exp. Mol. Pathol. 35, 42-56). In this report evidence is given that these precipitates reveal the presence of proteoglycans, as they are completely removed by 5 M guanidine-HCl incubation and by specific enzymatic digestions. In particular, proteoglycans associated with the poorly cross-linked lathyritic elastin can be removed by testicular hyaluronidase, chondroitinase ABC, heparitinase, and nitrous acid treatments, whereas they are rather resistant to streptococcal hyaluronidase and chondroitinase AC. On the contrary, proteoglycans of the matrix or associated with collagen fibers are particularly sensitive to these latter enzymatic treatments. The conclusion is reached that glycosaminoglycans associated with beta-aminopropionitrile-induced lathyritic elastin (i) are different from those of the matrix or associated with collagen, and (ii) include mainly dermatan and heparan sulfates.
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PMID:Elastin fiber-associated glycosaminoglycans in beta-aminopropionitrile-induced lathyrism. 670 93

Kidneys were perfused with [35S]sulfate at 4 h in vitro to radiolabel sulfated proteoglycans. Glomeruli were isolated from the labeled kidneys, and purified fractions of glomerular basement membrane (GBM) were prepared therefrom. Proteoglycans were extracted from GBM fractions by use of 4 M guanidine-HCl at 4 degrees C in the presence of protease inhibitors. The efficiency of extraction was approximately 55% based on 35S radioactivity. The extracted proteoglycans were characterized by gel-filtration chromatography (before and after degradative treatments) and by their behavior in dissociative CsCl gradients. A single peak of proteoglycans with an Mr of 130,000 (based on cartilage proteoglycan standards) was obtained on Sepharose CL-4B or CL-6B. Approximately 85% of the total proteoglycans were susceptible to nitrous acid oxidation (which degrades heparan sulfates), and approximately 15% were susceptible to digestion with chondroitinase ABC (degrades chondroitin-4 and -6 sulfates and dermatan sulfate). The released glycosaminoglycan (GAG) chains had an Mr of approximately 26,000. Density gradient centrifugation resulted in the partial separation of the extracted proteoglycans into two types with different densities: a heparan sulfate proteoglycan that was enriched in the heavier fraction (p greater than 1.43 g/ml), and a chondroitin sulfate proteoglycan that was concentrated in the lighter fractions (p less than 1.41). The results indicate that two types of proteoglycans are synthesized and incorporated into the GBM that are similar in size and consist of four to five GAG chains (based on cartilage proteoglycan standards). The chromatographic behavior of the extracted proteoglycans and the derived GAG, together with the fact that the two types of proteoglycans can be partially separated into the density gradient, suggest that the heparan sulfate and chondroitin sulfate(s) are located on different core proteins.
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PMID:Partial characterization of newly synthesized proteoglycans isolated from the glomerular basement membrane. 679 99

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