EC:3.2.1.36 - FACTA Search

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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)

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

Extensive chemical analyses of acid mucopolysaccharides (AMPS) were carried out in the urine and tissue (liver and brain) from a Japanese patient and two European patients with multiple sulfatase deficiency (MSD). The Japanese patient with MSD contained excessive quantities of heparan sulfate and moderately increased chondroitin sulfate A/C. Urinary excretion of AMPS in MSD heterozygotes was increased 2-fold compared to our controls. The urinary pattern of AMPS in the mother of the MSD patient showed an increase of 18% heparan sulfate and 36% dermatan sulfate whereas the urinary excretion pattern in the father was increased 21% for heparan sulfate as contrasted to controls (chondroitin sulfate A, 50-52%; chondroitin sulfate C, 38-46%; and heparan sulfate, 3-10%). Seventy-five % of the AMPS and the MSD liver was heparan sulfate rather than dermatan sulfate. The degree of accumulation of AMPS in the MSD liver was 30-50 times that of the control. Cerebral gray matter from the MSD patient contained 30-40 times that of control (relative increase of heparan and dermatan sulfate) whereas only a 5-fold increase was observed in white matter. It seems that a major site of accumulated AMPS appears to be in the gray matter. Carbohydrate analysis of the AMPS obtained from MSD urine and tissues was performed by: enzyme digestion with testicular hyaluronidase, heparitinase and chondroitinase ABC, cellulose acetate electrophoresis, Dowex-1 column chromatography and amino sugar analysis by amino acid analyzer. These findings indicate that the major accumulated AMPS in MSD urine and liver is heparan sulfate and thus, the predominant AMPS metabolic defect in MSD is heparan sulfate degradation.
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PMID:Acid mucopolysaccharide (AMPS) abnormality in multiple sulfatase deficiency: chemical compositions of AMPS in urine and liver. 621 4

Chondroitin 4-sulfate and chondroitin 6-sulfate were incubated with testicular hyaluronidase in the presence of excess beta-glucuronidase. The beta-glucuronidase caused rapid removal of the nonreducing terminal beta-D-glucuronosyl residues from the oligosaccharides formed by the action of the hyaluronidase, destroying the oligosaccharide acceptors required for the transglycosylation activity of hyaluronidase and releasing free D-glucuronic acid at a rate that was equal to the rate of the hyaluronidase-catalyzed hydrolysis. When hyaluronidase was assayed at 37 degrees C in the presence of 0.05 M NaCl, 0.05 M Na2SO4, and 0.1 M sodium acetate at pH 5, chondroitin 4-sulfate was hydrolyzed at 1.5 times the rate found for chondroitin 6-sulfate. When hyaluronidase was assayed at 45 degrees C in 0.06 M sodium acetate at pH 6, chondroitin 4-sulfate was hydrolyzed at 8 times the rate observed for chondroitin 6-sulfate. Under the pH5 conditions, the chondroitin 4-sulfate was converted to a mixture of tri- and pentasaccharides, while the chondroitin 6-sulfate was converted primarily to a mixture of penta- and heptasaccharides, with only a small amount of trisaccharide. Under the pH 6 conditions, the chondroitin 4-sulfate was converted to a mixture of penta- and heptasaccharides, with only a small amount of trisaccharide, but the products from chondroitin 6-sulfate were a mixture of oligosaccharides ranging in degree of polymerization from 7 to 25 monosaccharides per oligosaccharide. End-group analyses of the products formed at pH 6 showed that both substrates were cleaved preferentially at the glycosidic bonds of the 4-sulfated disaccharides.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Selective hydrolysis of chondroitin sulfates by hyaluronidase. 642 15

A high-performance liquid chromatography method for analyzing disaccharides derived from chondroitin sulfate glycosaminoglycans has been developed which employs a Whatman Partisil-10 PAC amino-cyano column and an acetonitrile/methanol/ammonium acetate solvent to resolve disulfated, monosulfated, and unsulfated disaccharides in a chromatographic run of less than 20 min. The single known trisulfated chrondroitin disaccharide can be eluted in an alternate solvent system containing the same mobile phase components in different proportions. Disaccharides were prepared for chromatography from glycosaminoglycans and proteoglycans of known compositions by digestion with chondroitinase ABC, with the exception of king crab cartilage glycosaminoglycan which was incubated sequentially with hyaluronidase and chondroitinase ABC. Disaccharides were extracted from the digestion mixtures in 80% ethanol, dried over nitrogen, resuspended in the HPLC solvent, and chromatographed at a flow rate of 1 ml/min. Unsaturated disaccharides in the column eluate were detected by continuous ultraviolet absorbance monitoring at 232 nm; alternatively, fractions were collected and assayed for uronic acid content or radioactivity. By utilizing the HPLC technique in conjunction with chondroitinase ABC and AC digestion and sulfatase hydrolysis, the epimeric structures of chondroitin sulfates E and H were confirmed. With this technique, rapid and reproducible analyses of chondroitin sulfate disaccharides generated from mouse mast cell proteoglycan and from glycosaminoglycans of squid cranial cartilage, shark skin, hagfish skin, and hagfish notocord were in close agreement with compositions obtained by other techniques.
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PMID:Analysis of polysulfated chondroitin disaccharides by high-performance liquid chromatography. 643 72

Acid mucopolysaccharides in the extracellular compartment of early chick blastoderms (16 h of incubation) were labelled with tritiated glucosamine and/or [35S]sulphate. The incorporation pattern was studied autoradiographically. Treatment with testicular hyaluronidase revealed a testicular hyaluronidase-sensitive fraction, mainly at the periphery of Middle Layer and Deep Layer cells, and a testicular hyaluronidase-resistant fraction, mainly at the ventral side of the Upper Layer. A biochemical analysis, utilizing chondroitinase ABC and nitrous acid, followed by cellulose acetate electrophoresis, demonstrated the synthesis of a non-sulphated fraction, i.e. hyaluronic acid and/or chondroitin, and a sulphated fraction, comprising two undersulphated components, i.e. chondroitin sulphate, and heparan sulphate or heparin. The appearance of different AMPS in specific areas of the early chick blastoderm is regarded as an early specialization of the extracellular compartment.
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PMID:Localisation and characterization of acid mucopolysaccharides in the early chick blastoderm. 644 84

Synovial fibroblasts were incubated in nutrient medium with either L-[U-14C]leucine or L-[4,5-3H]leucine to reveal peptides associated with hyaluronic acid. Isotope was found in hyaluronic acid extracted from culture medium by repeated density gradient ultracentrifugation, but 76-98% of the labelled hyaluronic acid fraction was recovered as oligosaccharide by Sephadex G-25 gel chromatography after digestion with protease-free staphylococcal hyaluronidase (EC 4.2.99.1). Radioactivity in acid digests of the oligosaccharide fractions (i) was volatile, (ii) separated similarly to acetate in Biogel P2 chromatography, and (iii) was identified as acetate by melting point after conjugation as a p-phenylphenacyl ester crystallized to constant specific activity. The synovial fibroblast thus possesses metabolic pathways for complete transformation of leucine to acetylCoA, which operate freely in adequate nutrient medium and are a significant source of acetyl groups in hyaluronic acid synthesis.
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PMID:Leucine metabolism as a source of acetate in the synthesis of hyaluronic acid. 647 28

Three types of murine tumors, B-16 melanoma, A-10 carcinoma, and S-180 sarcoma, were shown to contain elevated glycosaminoglycan (GAG) concentrations in vivo as compared to normal muscle or subcutaneous tissue. Hyaluronate was especially concentrated in the A-10 carcinoma, which contained approximately six times more hyaluronate than subcutaneous tissue and 18 times more than muscle. In all three tumors, chondroitin sulfates, especially chondroitin-4-sulfate, were present in higher concentrations than in the normal tissues. In culture, however, all three tumor cell lines produced less than 5% as much GAG as mouse fibroblasts, when measured by incorporation of [3H] acetate or by chemical analysis. Varying the culture passage number or the medium composition, ie, glucose, serum, and insulin concentrations, had little effect on GAG synthesis by the tumor cells. The low GAG levels in the tumor cell cultures were not due to hyaluronidase activity in their media. In an attempt to mimic possible host-tumor cell interactions that could account for the elevated GAG levels in vivo, tumor cells were cocultured with fibroblasts, but no stimulation above the amount made by the tumor cells alone plus that by the fibroblasts alone was observed. Conditioned media from the tumor cells, either dialyzed or not against fresh complete medium, had no effect on fibroblast GAG synthesis. Tumor extracts, however, were found to stimulate synthesis of hyaluronate by fibroblasts. Stimulation by extracts of A-10 carcinoma was greater than and additive to that of serum. The above results strongly suggest that GAG production in these tumors is in part regulated by host-tumor interactions.
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PMID:Stimulation of glycosaminoglycan production in murine tumors. 651 22

In clonal culture, colonies of 3-4 week old chick retinal pigmented epithelial cells exhibit Alcian Blue positive extracellular matrix (ECM) material on the surface of the cells. Alcian blue positive ECM is located between undifferentiated cells at the edges of the disc-shaped colonies and beneath the differentiated cells in the colony center. The latter material is associated with the basement membrane. The staining properties suggest that glycosaminoglycans (GAG) are present in these regions. Extraction of GAG from homogenates of colonies, followed by electrophoresis on cellulose acetate strips, results in three bands with mobilities similar to those of hyaluronic acid, heparan sulfate, and chondroitin sulfate, respectively. All three bands label with [3H]glucosamine, and the last two also label with [35S]sulfate. The composition appeared to differ when colonies were grown in different media. Digestion of the GAG preparations with various enzymes suggests that bands II and III represent heparan sulfate and chondroitin sulfate, respectively, in colonies grown in Ham's F10g medium. The composition of band I is as yet undetermined. In minimal Eagle's medium (MEM), bands I and III consisted of hyaluronic acid and chondroitin sulfate, respectively, while band II had properties suggestive of a copolymer of heparan sulfate and an unidentified GAG. Cells release only one [3H]glucosamine-labelled GAG into the medium. This material has a mobility similar to hyaluronic acid and is digested by Streptomyces hyaluronidase, suggesting that it is hyaluronic acid. Staining with Alcian Blue at different pH suggests that it may represent the material associated with the upper surface of the cells. Some of the ECM located between the undifferentiated cells and associated with the basement membrane in the differentiated regions of the colonies stains with Alcian Blue at pH 1.0 and 0.2 suggesting that it may contain GAGs found in bands I and II. Colonies treated with medium containing 6-diazo-5-oxo-L-norleucine (DON), an inhibitor of GAG synthesis, for 48 hr showed a reduced Alcian Blue staining of the ECM in the undifferentiated regions. After 72 hr of treatment with DON, the undifferentiated cells had detached from the plate, whereas the differentiated cells remained intact. The results suggest that the GAG may be involved in cellular adhesion, particularly of the undifferentiated cells.
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PMID:Type, location and role of glycosaminoglycans in cloned differentiated chick retinal pigmented epithelium. 653 77

Polysaccharides and other complex carbohydrates were released by proteolysis of the chloroform-methanol insoluble residue of 10 day-old worms and eggs of Hymenolepis diminuta. Gas-liquid chromatographic analysis of alditol acetate derivatives of monosaccharides released from the polysaccharides by hydrolysis revealed that in the 10 day-old worm, glucose was the most abundant sugar, followed by galactose, glucosamine, galactosamine, fucose and possibly rhamnose. Mannose was least abundant and xylose was absent. In the egg, glucose and galactose were equally abundant, followed by the same sugars found in 10 day-old worms, and xylose was present. Uronic acid was detected in both fractions by specific chemical tests. None of the saccharide material from eggs and worms was susceptible to degradation by Streptomyces hyaluronidase, chondroitinase AC, and slightly susceptible to chondroitinase ABC, as shown by electrophoretic analysis on composite 2.2% acrylamide-agarose slab gels and 4.5/12.5% polyacrylamide gels before and after enzymatic treatment. One of the gel-separable bands, however, was degradable by both nitrous acid and Flavobacterium heparinase. Both bands from eggs were degradable by nitrous acid. These results suggest that eggs contain heparin and/or heparan sulfate and perhaps dermatan sulfate and that 10 day-old worms also have these polyglycans but possibly not chondroitin sulfate or hyaluronic acid.
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PMID:Characterization of polysaccharides of the eggs and adults of Hymenolepis diminuta. 653 86

Glycosaminoglycans (GAG) were extracted by digestion with papain followed by ultrafiltration and separated by cellulose-acetate electrophoresis and by chromatography of their cetyl-pyridinium complexes on cellulose microcolumns. The uronic-acid content of the tissues ranged from 0.8 to 2.4 mg/g of dry defatted tissue. Hyaluronic acid and dermatan sulphate were found in all tissues with chondroitin-4-sulphate also in skin, palatal mucosa and gingiva. There was 3-fold more hyaluronic acid in palatal mucosa than in any other tissue; it was concentrated in the antemolar rugae. A substance of presumptive salivary origin staining with alcian blue was found in cheek and floor of mouth mucosa. It migrated differently from reference GAG by electrophoresis and was not degraded by testicular hyaluronidase.
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PMID:Biochemistry of glycosaminoglycans in the skin and oral mucosa of the rat. 659 92

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