Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.36 (hyaluronidase)
 4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Explants of cartilage from tibiae of 11-12 days chick embryos were grown in organ culture. To one group hyaluronidase was added to the medium during the first 2 days of culture; the treated tissue was then cultured in medium without enzyme for a further 4 days. Control explants grown in hyaluronidase-free medium for 6 days grew rapidly in size and the total hexosamine content more than doubled during this time. After exposure to hyaluronidase, much of the hexosamine was lost from treated cartilage and appeared in the culture medium, but it was mostly replaced in the tissue during the subsequent recovery period. Analysis of cartilage and medium showed that net synthesis of hexosamine increased greatly in treated cartilage. The proteoglycans were extracted by two procedures from control and treated cartilage after 2, 4 and 6 days in culture. The hydrodynamic sizes of the purified proteoglycans were compared by gel chromatography and the composition of the gel-chromatographic fractions was determined. The proteoglycans from controls did not change during culture, but after exposure to hyaluronidase the proteoglycans from treated cartilage were of much smaller size and lower chondroitin sulphate content. During recovery, even though new proteoglycans were formed, they were nevertheless of smaller size and lower chondroitin sulphate content than control proteoglycans. They gradually became more like control proteoglycans during recovery from treatment, but even after 4 days they were not yet the same. After 2 days of treatment with the enzyme, the chondroitin sulphate in the cartilage was of shorter chain length than in controls but during recovery after 4 and 6 days in culture, the chain lengths in control and treated cartilage were similar. It is concluded that the proteoglycans formed in embryo cartilage in response to their depletion by enzyme treatment contained fewer chondroitin sulphate chains attached to the protein moiety of proteoglycans. This may have resulted from a failure under stress to glycosylate the protein moiety to the usual extent; alternatively the synthesis of normal proteoglycans of low chondroitin sulphate content may have increased, thus changing the proteoglycan population.
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PMID:Replacement of proteoglycans in embryonic chick cartilage in organ culture after treatment with testicular hyaluronidase. 426 22

(1) Polysaccharides were isolated from bovine liver capsule by extraction with 2m-potassium chloride followed by precipitation from 0.8m-potassium chloride with cetylpyridinium chloride. Chondroitin sulphate was eliminated by digestion with hyaluronidase. The yield of heparin was approx. 40% of that obtained after extraction of the papain-digested tissue. (2) The macromolecular properties of the hyaluronidase-digested polysaccharide were studied by gel chromatography on Sephadex G-200 of the intact, as well as of the alkali-degraded, material. The results suggested the presence of single heparin chains in addition to a dermatan sulphate proteoglycan. (3) A purified heparin preparation was analysed for amino acids and neutral sugars. Xylose, galactose and serine were found in amounts corresponding to 0.1, 0.2, and 0.4 residue/polysaccharide chain (mol.wt. 7400), respectively. It is suggested that the isolated material had been degraded by a polysaccharidase with endo-enzyme properties.
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PMID:Attempted isolation of a heparin proteoglycan from bovine liver capsule. 541 26

Bovine nasal cartilage proteoglycan monomer which had been digested with chondroitinase ABC to form the keratan sulfate-protein core was injected into rabbits. High titer antiserum was obtained as judged by the binding of 125I-labeled keratan sulfate-protein core. Native proteoglycan did not inhibit the interaction of the antiserum with labeled keratan sulfate-protein core. However, the disaccharide obtained from chondroitin 4-sulfate by the action of chondroitinase ABC, 2-acetamido-2-deoxy-3-O-(beta-D-gluco-4-enepyranosyluronic acid)-4-O-sulfo-D-galactose, inhibited the interaction 50% at a concentration of 500 microM. The corresponding 6-sulfated and nonsulfated disaccharides at the same concentration gave 15% and 10% inhibition, respectively. Chondroitinase-digested proteoglycan from Swarm rat chondrosarcoma was strongly inhibitory, while the hyaluronidase-digested chondrosarcoma proteoglycan exhibited no detectable inhibition. Evidently, the antiserum raised against chondroitinase ABC-digested bovine nasal cartilage proteoglycan contains antibodies which recognize the unsaturated uronic acid residue linked to N-acetylgalactosamine 4-sulfate. These antibodies will be valuable for identifying and quantitating chondroitin 4-sulfate-containing proteoglycans in tissues.
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PMID:Immunological determinants of proteoglycans. Antibodies against the unsaturated oligosaccharide products of chondroitinase ABC-digested cartilage proteoglycans. 615 67

The ultrastructural organization of ruthenium red (RR) stainable material within small blood vessels located in the limbus of the rabbit eye was studied. Proteoglycans were identified in this material by digesting tissues with Streptomyces hyaluronidase, testicular hyaluronidase, chondroitinase ABC, or heparinase before ruthenium red staining. Neuraminidase digestion enabled separate identification of sialoglycoprotein. The luminal surface of endothelial cells demonstrates an RR-stained glycocalyx containing both sialoglycoprotein and proteoglycans, which are removed by testicular hyaluronidase and crude heparinase. The basal coat of endothelial cells and small granules (10-20 nm in diameter) located within the basal lamina stain with RR and are removed only by crude heparinase. The surface coat of smooth muscle cells and small granules (10-20 nm) within their basal laminas are also digested by crude heparinase. Large proteoglycan granules (20-50 nm), which are completely removed by testicular hyaluronidase and partially digested by Streptomyces hyaluronidase, are deposited between the connective tissue fibers of the media and adventitia. Other large granules that are attached to collagen fibers contain enzyme-resistant anionic materials. The surface coat of adventitial fibroblasts is removed only by crude heparinase. Thin filaments (3-5 nm in diameter) interconnect the cell coat material, basal lamina granules, and large connective tissue granules, to form a network of proteoglycans that traverses the intima, media, and adventitia. The highly ordered arrangement of proteoglycans in the microvascular wall suggests that these macromolecules play several roles in microvascular function.
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PMID:Proteoglycans in the microvasculature. I. Histochemical localization in microvessels of the rabbit eye. 616 46

The ultrastructural distribution of proteoglycans around capillaries growing in the cornea of the rabbit eye was determined after staining with ruthenium red (RR). Proteoglycans were identified by digesting tissues with glycosaminoglycan-degradative enzymes. Sialoglycoproteins were differentiated from proteoglycans by neuraminidase digestion. The capillary sprouts demonstrated a luminal glycocalyx containing testicular hyaluronidase-sensitive proteoglycans but little or no sialoglycoprotein. At the capillary tips, where mitosing and migrating endothelial cells are located, the basal cell surface displayed a network of small RR-stained granules (8 nm in diameter), which was partially removed by streptomyces hyaluronidase but not by testicular hyaluronidase. Thin filaments connected the granules to the endothelial cell plasmalemma and to a similar network of granules that is normally present in the corneal stroma. The stroma granules were partially digested by testicular hyaluronidase. In older capillary regions, where endothelial cells ceased proliferation, the basal network of proteoglycan granules was gradually infiltrated by fibrillar material until a basal lamina was formed. The proteoglycan granules were then arranged on both sides of the lamina densa, and a thin glycocalyx covered the basal endothelial cell surface. Thus, proteoglycans and anionic materials associated with growing capillaries serve to link proliferating and migrating endothelial cells to the extracellular matrix, help to organize the capillary basal lamina, form an anionic surface along the luminal front of capillaries, and probably help stabilize the structure of the capillary wall after proliferation ceases.
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PMID:Proteoglycans in the microvascular. II. Histochemical localization in proliferating capillaries of the rabbit cornea. 616 47

Monoclonal antibodies to hyaluronidase-treated chondroitin sulfate proteoglycan (CSPG) were used to study the immunological determinants of chick cartilage proteoglycan. The determinants recognized by the antibodies were studied by a radioimmune inhibition assay utilizing hyaluronidase-treated [35S]CSPG. Hyaluronidase-treated CSPG inhibits the reaction of four clonal antibodies, S54C, S103L, S11D, and P100D, with [35S]CSPG, but to varying degrees. Only the reaction of S103L is inhibited to a considerable extent by undigested CSPG, indicating that hyaluronidase treatment exposes determinants specific for the other three antibodies. These findings are consistent with the earlier conclusion that S103L is specific for a protein determinant (Dorfman et al., 1980). Only the reaction of S54C is not significantly inhibited by chondroitinase ABC-digested CSPG. This result indicates that chondroitinase ABC digestion can also expose determinants recognized by S11D and P100D but that such digestion removes the determinant recognized by S54C. Of the four antibodies tested, only the reaction of S54C with hyaluronidase-treated [35S]CSPG is significantly inhibited by chondroitin-6-SO4 tetra- and hexasaccharide (59 and 43% inhibition, respectively, at a concentration of 1333 microM). The reaction of S54C is inhibited to a lesser extent by chondroitin tetra- and hexasaccharide (28 and 26% inhibition, respectively, at a concentration of 1333 microM). In contrast, chondroitin-4-SO4 oligosaccharides do not inhibit the reactions of any of the clonal antibodies. These result suggest that S54C recognizes a determinant that contains chondroitin-6-SO4 oligosaccharide, attached via the linkage oligosaccharide to core protein.
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PMID:Chondroitin 6-sulfate oligosaccharides as immunological determinants of chick proteoglycans. 616 75

Tryptic fragments of bovine nasal-cartilage proteoglycan, fractionated by dissociative density-gradient ultracentrifugation, were made to react by immunodiffusion against antiserum to a hyaluronidase-digest subfraction of cartilage proteoglycan monomer. This reaction produced two families of partly superimposed precipitin lines. One family was restricted to gradient fractions of medium or low buoyant density and included the immunoprecipitation reaction attributed to the hyaluronic acid-binding region of the cartilage proteoglycan monomer. The second family of precipitin lines was present alone in gradient fractions of high buoyant density. Immunodiffusion studies with antisera to relatively homogeneous keratan sulphate-rich and chondroitin sulphate-bearing fragment subfractions isolated from the gradient fraction of highest density indicated that both subfractions contained the antigenic determinants responsible for the second family of precipitin lines. Additional immunodiffusion studies, with the use of multispecific antisera to chondroitinase ABC digest and hyaluronidase digest of proteoglycan monomer, confirmed that the two subfractions shared antigenic determinants, and, in addition, indicated that these determinants were on one molecular species in the keratan sulphate-rich fragment subfraction and divided among at least three in the chondroitin sulphate-bearing fragment subfraction. Although an unprecedentedly large number of cartilage proteoglycan antigens could be recognized with the antisera employed in this cartilage proteoglycan antigens could be recognized with the antisera employed in this study, it was not possible to identify antigenic determinants unambiguously specific for the three structurally and functionally distinct regions of the cartilage proteoglycan monomer.
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PMID:Immunodiffusion studies of the tryptic fragments of bovine nasal-cartilage proteoglycan monomer of high buoyant density. 618 Jul 31

The present study has ultrastructurally applied the tannic acid-ferric chloride (TA-Fe) and the TA-uranyl acetate (TA-UA) methods to thin sections of glutaraldehyde-fixed, unosmicated embedded epiphyseal cartilage from rat tibiae to demonstrate complex carbohydrates. The strongest TA-Fe and TA-UA staining was observed after fixation of the specimens in glutaraldehyde containing TA. TA-Fe (pH 1.5) strongly stained matrix granules presumed to be proteoglycan monomers and chondrocyte secretory granules at various maturational stages but did not stain collagen fibrils and glycogen. TA-UA (pH 4.2) strongly stained matrix granules, intracellular glycogen, and chondrocyte secretory granules, and moderately stained collagen fibrils in the cartilage matrix. Ribosomes and nuclei were not stained above background staining with UA alone. In alpha-amylase-digested specimens, all TA-UA-reactive cytoplasmic glycogen was selectively removed. Testicular hyaluronidase digestion of specimens selectively removed TA-UA staining in matrix granules and all TA-Fe staining. When the pH of the UA solution was reduced to 1.5, TA-UA staining of glycogen and collagen was markedly decreased or absent, whereas staining of anionic sites was unaltered and significantly greater than with UA staining alone. Thus the TA-metal salt methods are pH dependent and allow differential intracellular and extracellular localization of complex carbohydrates in cartilage tissues at the electron microscope level.
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PMID:Ultrastructural visualization of complex carbohydrates in epiphyseal cartilage with the tannic acid-metal salt methods. 618 82

The distribution of hyaluronic acid and proteoglycans in bovine thoracic aorta was studied by Alcian Blue staining of frozen tissue sections under controlled electrolyte conditions with and without prior enzymic digestion. Some sections were digested with chondroitinase ABC, testicular hyaluronidase or bacterial collagenase and subsequent staining permitted conclusions to be drawn about the distribution of specific glycosaminoglycans within the tissue. The total glycosaminoglycan content was maximal in the intima and decreased across the arterial wall to the outermost adventitial layer. The content of proteoglycan containing chondroitin sulphate and/or dermatan sulphate chains paralleled this distribution. However, other glycosaminoglycans also contributed significantly to staining, although there was no evidence for any appreciable concentration of heparin or highly sulphated heparan sulphate. Several experiments indicated that proteoglycan containing chondroitin sulphate and/or dermatan sulphate was associated with elastic laminae which were often seen stained along their periphery. Hyaluronic acid was present at significant concentrations in all locations of the aorta and there was evidence for a similar distribution of heparan sulphate which was possible also present at a high concentration in the endothelium. Staining of sections after treatment with 4 M guanidinium chloride confirmed that this extractant removed most of the proteoglycan from the tissue section.
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PMID:Distribution of proteoglycans and hyaluronic acid in transverse sections of bovine thoracic aorta. 619 24

Several monoclonal antibodies which recognize different antigenic determinants of chondroitin sulfate proteoglycan were used to study chondroitin sulfate proteoglycan biosynthesis in chicken chondrocyte cultures. The intracellular sites of synthesis and processing and extracellular deposition in matrix were localized by double immunofluorescence reactions. One rat monoclonal antibody, S103L , which recognizes an antigenic determinant of the core protein of the chicken cartilage chondroitin sulfate proteoglycan monomer, was used to identify both extracellular chondroitin sulfate proteoglycan and intracellular compartments containing chondroitin sulfate proteoglycan precursors. Intracellular staining with S103L was localized to perinuclear regions, and, in some chondrocytes, to a few other cytoplasmic vesicles as well. When chondrocytes were not fed for several days, intracellular chondroitin sulfate proteoglycan precursors were accumulated in larger compartments distributed throughout the cytoplasm. Polyclonal chondroitin sulfate proteoglycan antibodies displayed similar staining characteristics. In contrast, several of the monoclonal antibodies, including the rat monoclonals S11D and P100D , and the mouse monoclonals 1-B-5, 3-B-3 and 9-A-2, did not recognize native chondroitin sulfate proteoglycan, but reacted only with chondroitinase ABC-digested (and/or hyaluronidase-digested) chondroitin sulfate proteoglycan. These antibodies were particularly useful in the demonstration of the extracellular codistribution of chondroitin sulfate proteoglycan with either type II collagen or fibronectin. In other experiments, the monoclonal antibodies to chondroitin sulfate proteoglycan served to demonstrate that the perinuclear subset of intracellular compartments is uniquely involved in the addition of chondroitin sulfate oligosaccharides to the chondroitin sulfate proteoglycan core protein. Lastly, using the mouse monoclonal 5-D-4, which recognizes keratan sulfate determinants, the perinuclear region was identified as the site for keratan sulfate addition. Results suggest heterogeneity of keratan sulfate synthesis at the level of individual chondrocytes, even for cells apparently containing equivalent amounts of intracellular chondroitin sulfate proteoglycan.
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PMID:Immunofluorescence studies of chondroitin sulfate proteoglycan biosynthesis: the use of monoclonal antibodies. 620 57


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