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)

Mannose-(Man) and N-acetylglucosamine- (GlcNAc)-terminated glycoproteins are cleared from blood by carbohydrate-specific receptors present on both hepatic endothelial and Kupffer cells. It is not known whether the same receptors are present on each cell type or the relative contributions to glycoprotein metabolism made by Kupffer and endothelial cells. Here we report experiments where data from glycoprotein metabolism by purified populations of isolated rat hepatic endothelial and Kupffer cells have been analyzed by mathematical modelling and parameter estimation. Kupffer cells had significantly higher binding rate constants (k'21) than endothelial cells for agalactoorosomucoid (AGOR) and hyaluronidase, but lower k12 ('off-rate') indicating that Kupffer cells had higher affinities for Man/GlcNAc-terminated glycoproteins than endothelial receptors. Furthermore, although endothelial cells had similar affinities (k'21 and k12) for AGOR and hyaluronidase, the 'off-rate' of Kupffer cells was significantly greater for AGOR than for hyaluronidase, indicating that Kupffer cell receptors have lower affinity for AGOR. Internalization and ligand catabolic rates also differed between the two cell types. The data indicate that Kupffer and endothelial cells appear to have different Man/GlcNAc receptors and that the destination of a glycoprotein and its subsequent processing is determined by the structure of a glycoprotein's oligosaccharide.
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PMID:Uptake and processing of glycoproteins by isolated rat hepatic endothelial and Kupffer cells. 233 92

The enzymic degradation of hyaluronan in mammalian tissues takes place in two phases, encompassing breakdown of the polysaccharide to its monosaccharide constituents and subsequent utilization of the monosaccharide products. Degradation to the monosaccharide components is effected by the concerted action of three enzymes, hyaluronidase, beta-D-glucuronidase and beta-N-acetyl-D-hexosaminidase. The relative contributions of hyaluronidase and the two exoglycosidases to the physiological catabolism of hyaluronan are not yet known but consideration of the kinetic properties of the three enzymes clearly indicates that hyaluronidase is best suited for the initial attack on the polysaccharide, inasmuch as its Km for hyaluronan is 1000- to 10,000-fold lower than that estimated for beta-D-glucuronidase. Recent investigations in the authors' laboratories have been focused on the catabolism of hyaluronan and other complex carbohydrates in liver, since the sinusoidal endothelial cells in this organ are the main sites for degradation of circulating hyaluronan. Assay of ten lysosomal hydrolases in isolated rat liver cells showed considerably higher activities in Kupffer cells and endothelial cells than in hepatocytes for nine of the enzymes, including beta-D-glucuronidase and beta-N-acetyl-D-hexosaminidase. The activity of N-acetylglucosamine-6-phosphate deacetylase, a key enzyme in the metabolism of the N-acetylglucosamine released by the lysosomal degradation of hyaluronan and other complex carbohydrates, has also been determined. High deacetylase activities were observed in both Kupffer cells and endothelial cells but, surprisingly, virtually no activity was detected in hepatocytes. This finding implies that N-acetylglucosamine cannot be degraded in hepatocytes and must be largely reutilized in the synthesis of new macromolecules. Further studies of the enzymes involved in hyaluronan degradation and N-acetylglucosamine utilization in the liver are under way.
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PMID:Enzymic pathways of hyaluronan catabolism. 253 69

Colon cancer cells in culture synthesize and secrete mucin glycoproteins, which carry a number of cancer-associated antigens. However, the structures and mechanisms of biosynthetic processing are not well understood. Mucins synthesized and secreted by LS174T human colon cancer cells were compared to those in LS174T xenografts in athymic mice. Mucins radiolabeled with glucosamine or sulfate were purified by gel filtration and cesium chloride density gradient centrifugation. The mucins were of high molecular weight and were resistant to chondroitinase ABC, hyaluronidase and HNO2 treatment. They were, however, susceptible to pronase digestion and mild alkaline treatment. Using radiochemical precursors, the cellular mucin was shown to contain fucose, galactose, N-acetylgalactosamine, N-acetylglucosamine, N-acetylneuraminic acid, and sulfate. Oligosaccharides released by beta-elimination had N-acetylgalactosaminitol as the reduced amino sugar and also unreduced galactosamine, indicating that there is N-acetyl-galactosamine O-glycosidically attached to protein core and also peripheral N-acetyl-galactosamine not directly linked to protein. DEAE-cellulose chromatography of mucins showed two major peaks with both intracellular and secreted mucins, but xenograft mucins also had more acidic components. Sulfate-labeled mucins were shifted to less acidic peaks by neuraminidase digestion, which indicates that the same mucin molecules are both sialylated and sulfated. We conclude that the intracellular mucins of cultured colon cancer cells, those secreted into the medium, and those in nude mouse xenografts are chemically similar, but differ in sialic acid and sulfate content. This experimental model system, LS174T cells maintained in culture and as nude mouse xenografts, may be useful for further biosynthetic and structural studies of colon cancer mucin.
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PMID:Comparison of metabolically labeled mucins of LS174T human colon cancer cells in tissue culture and xenograft. 273 49

The chemical nature of anionic sites located on both fronts of the endothelial cells (ECs) and in the basement membrane (BM) of mouse brain capillaries was studied using tissue sections embedded in Lowicryl K4M and cationic colloidal gold. Before labelling with cationic probe, the sections were digested with the following enzymes: trypsin, papain, pronase E, proteinase K, collagenase, chondroitinase ABC, hyaluronidase, heparinase, heparitinase, neuraminidase and endoglycosidase H. The results indicate that the negatively charged surface layer on the luminal front differs in chemical nature from that on the abluminal front of the EC. Anionic sites located on the luminal surface of the plasmalemma of the ECs are mainly contributed by sialic acid residues of acidic glycoproteins. On the contrary, the anionic domains on the abluminal front of the EC represent mixed proteoglycan and acid glycopeptides containing hydrophobic amino acids, sialic acid residues, and are rich in heparan sulphate-bearing glycosaminoglycans. The anionic sites of the BM are contributed in a substantial degree by chondroitin and heparan sulphate-rich glycosaminoglycans. The effect of endoglycosidase H suggests that glycopeptides containing oligomannosyl residues linked to N-acetylglucosamine contribute in small degree in maintenance of the negative charge in the BM, but not on the surfaces of the EC. These results show that brain endothelium bears surface anionic domains differing chemically from those described for some fenestrated and continuous endothelia. The distribution of anionic sites indicates that the discrimination against various negatively charged molecules takes place on both fronts of the ECs as well as in the BM of brain micro-blood vessels. The exact role of these domains in the function of the blood-brain barrier remains to be established.
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PMID:Ultracytochemical characterization of anionic sites in the wall of brain capillaries. 274 7

The effects of steroid hormones on the synthesis of lactosaminoglycan (LAG)-containing oligosaccharides by mouse uteri are reported. The uterine LAG-containing oligosaccharides were degraded partially by Pseudomonas endo-beta-galactosidase, releasing an oligosaccharide of the apparent structure: Gal beta----N-acetylglucosaminyl(----N-acetylgalactosaminyl)beta 1,3----galactose. A larger fraction of the LAG-containing oligosaccharides bound to pokeweed mitogen than to Datura stramonium lectin, suggesting the presence of highly branched structures. LAG-containing oligosaccharides were resistant to sequential digestion with Pronase, nitrous acid, hyaluronidase, and chondroitinase ABC. These polysaccharides exhibited a Gal:GlcNAc:GalNAc ratio of approximately 1.0:1.0:0.3 and were not fucosylated. The ion-exchange behavior of the LAG-containing oligosaccharides before and after mild acid hydrolysis indicated the presence of sialic acid residues. The LAG-containing glycopeptides were highly resistant to beta-elimination but were released quantitatively by hydrazinolysis, demonstrating an N-linkage to protein. Binding to pokeweed mitogen was markedly enhanced following release of these oligosaccharides from peptides by hydrazinolysis, suggesting that peptide-bound oligosaccharides were partially inaccessible to the lectin. Molecular exclusion chromatography of the oligosaccharides released by hydrazinolysis revealed a broad distribution ranging from Mr 4,000 to 15,000 with a median Mr of approximately 8,000. We extended the above observations by determining how the steroid hormones 17-beta-estradiol (E2) and progesterone affected synthesis of the LAG-containing oligosaccharides in ovariectomized mice. Generally, E2 and a number of E2 agonists stimulated glycoconjugate synthesis; however, chronic E2 treatment or combined treatment with E2 plus progesterone caused the synthesis of most glycosaminoglycans to return to basal levels. In contrast, E2 either alone or in combination with progesterone stimulated synthesis of LAG-containing oligosaccharides in preference not only to glycosaminoglycans but also to other classes of N-linked oligosaccharides. This effect was apparent during both priming and nidatory E2 treatments. Collectively, these data provide the first demonstration of LAG-containing oligosaccharides in uteri and for the hormonally regulated synthesis of lactosaminoglycans. In addition, this is the first demonstration of the ability of steroid hormones to induce the synthesis of certain types of N-linked oligosaccharides in preference to others in the same tissue.
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PMID:Estrogen preferentially stimulates lactosaminoglycan-containing oligosaccharide synthesis in mouse uteri. 312 90

A study was made of hyaluronidase in ram semen. The end-group assay conditions used to determine activity quantitatively were chosen to ensure reliability as well as sensitivity [Gacesa, Savitsky, Dodgson & Olavesen (1981) Anal. Biochem. 118, 76-84]; they led to 1 W.H.O. Standard International Hyaluronidase Unit displaying 0.1263 EC munit (1 EC unit of activity releases 1 mumol equivalent of N-acetylglucosamine end groups/min at 37 degrees C). All the activity in the semen was shown to be sperm-derived, and intact spermatozoa were estimated to contain 1.23 EC units per 10(9) cells. In a low-ionic-strength medium, only some 20% of the hyaluronidase was extractable, although up to 80% of the activity could be extracted as the ionic strength was increased; further addition of detergent extracted the remainder. During purification of the enzyme, it was found that inclusion of poly(vinyl alcohol) in the media stabilized the activity; detergent inclusion also improved the yield, especially during early stages. As a consequence both of reliable quantitative determination and of stabilization, a number of forms of hyaluronidase could be isolated in high yield, by using anion-exchange chromatography, cation-exchange chromatography, affinity chromatography and gel filtration. The existence of all these forms was confirmed by electrophoresis and immunoblotting with the use of a monoclonal anti-(ram hyaluronidase) antibody, and their presence in very freshly prepared sperm extracts was demonstrated. The specific activity of the isolated major hyaluronidase form was 15.0 EC units/mg; this was equivalent to 119,000 W.H.O. units/mg, higher than any other previously reported values.
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PMID:Hyaluronidase in ram semen. Quantitative determination, and isolation of multiple forms. 342 26

Enzymatic depolymerization of hyaluronic acid (HA) is accompanied by the release of reducing ends irrespective of the linkage cleaved. In this investigation we have examined HA exposed to oxygen-derived free radicals (oxy radicals) in order to determine whether reducing ends are released upon depolymerization. Reducing ends were detected by the assay of Park and Johnson, which is a non-specific but sensitive assay for reducing ends, but only to a minimal degree by the Reissig modification of the Morgan Elson reaction, which will detect N-acetylglucosamine at the reducing end. Exposure of a sample of HA, pre-exposed to streptomyces hyaluronidase, to an oxy radical flux did not result in a decrease in Morgan Elson reactivity thus indicating that post cleavage modification of the reducing end by further reaction with oxy radicals does not account for the lack of Morgan Elson reactivity. In addition reducing ends were also detected by reaction with radiolabelled cyanide to the degree predicted by molecular weight. These findings were interpreted as being consistent with the hypothesis that oxy radical induced depolymerization of HA occurs by preferential cleavage of the glucuronidic linkage thus leaving D-glucuronic acid at the reducing end.
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PMID:The generation of reducing ends by exposure of hyaluronic acid to oxygen derived free radicals. 346 Mar 16

The major urinary trypsin inhibitor (Mr 44 000), isolated from human urine, contains 35% carbohydrate. In addition to N-acetylglucosamine and neutral sugars (primarily mannose and galactose), the carbohydrate moiety contains hexuronic acid and N-acetylgalactosamine and corresponds to a glycosaminoglycan. This carbohydrate chain is an integral component of the inhibitor: it does not dissociate from the inhibitor when using dissociative conditions such as sodium dodecyl sulfate, guanidinium chloride, or by increasing ionic strength or mixing with cetylpyridinium chloride. This glycosaminoglycan chain is sensitive to chondroitinase ABC or testicular hyaluronidase digestion and corresponds to slightly sulfated chondroitin 4-sulfate or 6-sulfate. After treatment by these enzymes, the urinary inhibitor has a lower molecular mass (Mr 26 000) but still inhibits trypsin.
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PMID:The major human urinary trypsin inhibitor is a proteoglycan. 373 76

Fibrin and hyaluronic acid (HA) are macromolecules whose concentrations are elevated at the same time in the extracellular space of damaged tissues. We have investigated whether HA can bind to fibrinogen using solid phase and soluble assays. Purified human fibrinogen specifically bound to HA-Sepharose to a greater extent (greater than 5-fold) than did alpha 1-acid glycoprotein, DNaseI, ovalbumin, haptoglobin, or lysozyme. Fibrinogen did not bind to ethanolamine-Sepharose, a control chromatographic support. Treatment of HA-Sepharose containing bound 125I-fibrinogen with ovine testicular hyaluronidase released 44% of the 125I radioactivity, indicating that fibrinogen was specifically bound to HA. Moreover, 125I-fibrinogen bound to HA-Sepharose could be displaced by free HA but not by either of the monosaccharide components of this polymer, glucuronic acid, or N-acetylglucosamine. Chondroitin sulfate and polygalacturonic acid competed only weakly for bound 125I-fibrinogen. Bound 125I-fibrinogen was also not released by high concentrations of NaCl (up to 4 M), indicating that the interaction is not simply ionic. The apparent affinity of fibrinogen for HA covaried with the molecular weight of the HA. Small HA oligosaccharides (Mr = 3900) were only 50% as effective as larger HA (Mr = 8 X 10(5)) in eluting bound 125I-fibrinogen from HA-Sepharose. The optimal oligosaccharide size for displacement of bound 125I-fibrinogen was greater than or equal to 200 monosaccharides. Additionally, the amount of 125I-fibrinogen bound to HA-Sepharose was directly related to the size of the HA-amine linked to the affinity support. The affinity constant for fibrinogen binding to 125I-HA (approximately 150 monosaccharides) is estimated to be at least 2 X 10(7) M-1. These results demonstrate for the first time a specific, reversible binding between HA and fibrinogen.
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PMID:Human fibrinogen specifically binds hyaluronic acid. 374 4

The luminal surfaces of the endothelium lining the two surfaces of the aortic arterial (AAR) and ventricular (AVT), and mitral ventricular (MVT) and atrial (MAT), valve cusps were studied with cationic ferritin (CF) and ferritin (Fer)-conjugated lectins (WGA, RCA, SBA). The arterial (AAR) and ventricular (MVT) surfaces of the aortic and mitral cusps, which are exposed to more turbulent fluid mechanical forces and lower wall shear stresses, had the greatest density of CF labeling. The endothelia of the four surfaces displayed a gradient of decreasing density from the nuclear region to the periphery. Neuraminidase, chondroitinase ABC and AC, heparinase, heparitinase, hyaluronidase (testicular), and pronase E digestions suggested that a significant number of the anionic sites labeled by CF are associated with sialoglycoproteins and glycosaminoglycans such as chondroitin 4/6 sulfates, dermatan sulfates, and heparan sulfates. The localization of WGA receptors on the endothelium of AAR and MVT demonstrated a greater density of sialyl moieties than on the AVT and MAT. There was no binding of Fer-RCA with specificity for D-galactopyranosides or Fer-SBA with affinity for N-acetylglucosamine and D-galactose to the endothelium unless it was first treated with neuraminidase. Hence, sialic acids are shown to be among the more superficial components of this glycocalyx and to be largely responsible for the greater densities over the endothelium of AAR and MVT.
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PMID:Anionic surface properties of aortic and mitral valve endothelium from New Zealand white rabbits. 384 Jun 42


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