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: EC:3.2.1.36 (hyaluronidase)
4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To generate xyloside-primed dermatan sulfate suitable for sequence analysis, skin fibroblasts were incubated with p-hydroxyphenyl-beta-D-xylopyranoside and [3H]galactose, and free [3H]glycosaminoglycan chains were isolated from the culture medium by ion exchange and gel chromatography. After 125I labelling of their reducing-terminal hydroxyphenyl groups, chains were subjected to various chemical and enzymatic degradations, both partial and complete, followed by gradient polyacrylamide gel electrophoresis and autoradiographic identification of fragments extending from the labelled reducing-end to the point of cleavage. Results of periodate oxidation-alkaline scission indicated that the xylose moiety remained unsubstituted at C-2/C-3; exhaustive treatment with chondroitin AC-I lyase afforded the fragment delta HexA-Gal-Gal-Xyl-R (R = radio-iodinated hydroxyphenyl group), and complete degradations with chondroitin ABC lyase as well as testicular hyaluronidase yielded the fragments delta HexA/HexA-GalNAc-GlcA-Gal-Gal-Xyl-R with or without sulfate on the N-acetylgalactosamine. Partial digestions with testicular hyaluronidase or chondroitin B lyase indicated that glucuronic acid was common in the first three repeats after the linkage region and that iduronic acid could occupy any position thereafter. Hence, there were no indications of a repeated, periodic appearance of the clustered GlcA-GalNAc repeats which was previously observed in proteoglycan derived dermatan sulfate [Fransson L-A, Havsmark B, Silverberg I (1990) Biochem J 269:381-8], suggesting a role for the protein part in controlling the formation of particular copolymeric features during glycosaminoglycan assembly.
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PMID:Sequence analysis of p-hydroxyphenyl-O-beta-D-xyloside initiated and radio-iodinated dermatan sulfate from skin fibroblasts. 139 65

We are attempting to develop methods for the sequencing of glycosaminoglycans from their reducing end. Here we describe a procedure for the analysis of dermatan sulphate from pig skin. The glycosaminoglycan is released from its parent proteoglycan by exhaustive proteolysis by using both endo- and exo-peptidases. The amino group of the residual serine residue is conjugated with a p-hydroxyphenyl group, which in turn is iodinated with 125I (the Bolton-Hunter reagent, BHR). The ion-exchange-purified end-labelled dermatan sulphate is then degraded partially or completely by various enzymic or chemical means to yield fragments extending from the labelled serine residue to the point of cleavage. The various products are separated by gradient PAGE, detected by autoradiography and quantified by videodensitometry. Complete digestion with chondroitin ABC lyase affords the labelled fragment delta HexA-GalNAc(-SO4)-GlcA-Gal-Gal-Xyl-Ser(-BHR). The structure was confirmed by sequential degradation from the non-reducing end by chondroitin AC lyase, HgCl2, and beta-galactosidase. Periodate oxidation cleaves most of the Xyl even without treatment with alkaline phosphatase, showing that Xyl is not substituted with phosphate. Results from partial and selective periodate oxidation indicate that most of the non-sulphated IdoA residues are located towards the non-reducing end. Partial or complete digestions with testicular hyaluronidase (in the presence of an excess of beta-glucuronidase) or chondroitin AC lyase identify the positions of GlcA residues. The results confirm that HexA next to Gal is always GlcA. Moreover, GlcA is common in the first three disaccharide repeats. Results with testicular hyaluronidase indicate that the distribution of clustered GlcA-GalNAc repeats is periodic and peaks at positions 1-3, 8-9 and around 25. Although there must be chains that contain IdoA in nearly all of the available positions, regions that have not been fully processed during biosynthesis are markedly non-random.
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PMID:A method for the sequence analysis of dermatan sulphate. 216 67

We characterized the chemical composition of mucins secreted by ferret tracheal explants and the activities of key mucin glycosyltransferases in ferret tracheal epithelium during a period of rapid postnatal maturation of the mucin-secreting structures. Ferret tracheal explants secrete three major groups of high molecular weight glycoconjugates: (1) those susceptible to bovine testicular hyaluronidase; (2) those resistant to hyaluronidase and exhibiting high density (p greater than or equal to 1.60 g/mL); and (3) those resistant to hyaluronidase and exhibiting low density (1.45 less than or equal to p less than 1.60 g/mL). The hyaluronidase-resistant, low-density glycoconjugates have typical mucin properties and constitute 36% of total glycoconjugates released in newborns but only 8% in adult ferrets. Mucin secretory rate per unit surface area of trachea progressively decreases with age. Mucin amino acid and total carbohydrate contents do not vary; however, the sialic acid content increases, and fucose content as well as blood group A activity of the mucins decreases with age. Four glycosyltransferases involved in mucin biosynthesis [Gal beta 3GalNAc:(GlcNAc-GalNAc)beta 6 N-acetylglucosaminyl-, GalNAc:beta 3 galactosyl-, Gal:alpha 2 fucosyl-, and GalNAc alpha 2----6 neuraminyltransferase] are present in tracheal epithelium of ferrets at all ages. Activities of all but the neuraminyltransferase decrease with age. The relatively greater neuraminyltransferase activity is consistent with increased incorporation of sialic acid into secreted mucins over the same age span. Conversely, diminution of fucosyltransferase relative to galactosyltransferase activity may contribute to the lower fucose content and lower blood group A activity of mucins secreted by mature ferret tracheas.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Developmental changes of ferret tracheal mucin composition and biosynthesis. 261 Dec 42

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

Teratocarcinoma cells (F9) were induced to differentiate by retinoic acid and then labelled with [3H]-glucosamine and [35S]-sulphate. Proteoglycans were then isolated from the plasma membranes and the culture medium by mild, dissociative, non-shear-dependent techniques. The undifferentiated cells were devoid of hyaluronic acid and contained negligible quantities of heparan sulphate, dermatan sulphate and chondroitin sulphate. Upon differentiation, the cells synthesized large amounts of hyaluronic acid and there was a threefold increase in the amount of membrane-bound sulphated proteoglycans. The differentiated cells also synthesized a proteoglycan (PGM-2) which was shed completely into the medium. It consisted of a large protein core with covalently linked sugar chains which were sulphated and had an approximate molecular weight of 12000. These sugar chains consisted of glucosamine and galactose in a molar ratio of 1:1 and contained a small quantity of mannose. Upon differentiation of the cells the amount of this molecule increased by threefold. This molecule was distinct from other proteoglycans since it was resistant to degradation by heparanase, chondroitinases, hyaluronidase and neuraminidase, but could be degraded by keratanase. Structurally it was very similar to keratan sulphate, consisting of alternating residues of (-Gal-GlcNAc-) in chains of approximately 20 such disaccharide units.
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PMID:Changes in proteoglycan composition of F9 teratocarcinoma cells upon differentiation. 666 12

Human vascular endothelial cells synthesize lactosaminoglycan-type glycoproteins which are found both associated with cells and secreted into the culture medium. Pronase-derived glycopeptides prepared from [3H]glucosamine-labeled glycoproteins were found to contain about 10% of the labeled products as a large size (Mr greater than 5000) 3H-labeled glycopeptide. Digestion of these 3H-labeled glycopeptides with endo-beta-galactosidase resulted in the release of smaller size saccharides, which were characterized as having the structure sialic acid----Gal----GlcNAc----Gal. Treatment of [3H]glucosamine-labeled cells with melittin caused 3H-labeled glycoconjugates to be released from the cells. Separation of released glycoproteins from proteoglycans by DEAE-cellulose chromatography indicated that melittin had released 25% of the total 3H-labeled glycoproteins from the cell and 3% of the 3H-labeled proteoglycans. The 3H-labeled glycoproteins were digested with Pronase and the resulting 3H-labeled glycopeptides were fractionated on Sephadex G-50. The large size fraction (Mr greater than 5000) now comprised about 30% of these released 3H-labeled glycopeptides. These high molecular weight 3H-labeled glycopeptides were degraded with endo-beta-galactosidase but not with testicular hyaluronidase. Analysis of the released 3H-labeled glycoproteins indicated a preferential release of glycoproteins of 70-90 kDa enriched in lactosaminoglycan-type oligosaccharides.
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PMID:Synthesis of lactosaminoglycan-containing glycoproteins by vascular endothelial cells. 670 15

During the course of a study of elucidate the role of modification of the common polysaccharide-protein linkage structure, GlcA beta 1-3Gal beta 1-3Gal beta 1-4Xyl beta 1-O-Ser, in biosynthetic sorting mechanisms of the different sulfated glycosaminoglycan chains, a novel N-acetylgalactosamine (GalNAc) transferase was discovered in fetal bovine serum. The enzyme catalyzed the transfer of [3H]GalNAc from UDP-[3H]GalNAc to linkage tetrasaccharide and hexasaccharide serines synthesized chemically and to various regular oligosaccharides containing terminal D-glucuronic acid (GlcA), which were prepared from chondroitin and chondroitin sulfate using testicular hyaluronidase digestion. The labeled products obtained with the linkage tetra- and hexasaccharide serines and with the tetrasaccharide (GlcA beta 1-3GalNAc)2 were resistant to digestion with chondroitinase AC-II and beta-N-acetylhexosaminidase but sensitive to alpha-N-acetylgalactosaminidase digestion, indicating that the enzyme is an alpha-N-acetylgalactosaminyltransferase. This finding is in contrast to that of Rohrmann et al. (Rohrmann, K., Niemann, R., and Buddecke, E. (1985) Eur. J. Biochem., 148, 463-469), who reported that a corresponding product was susceptible to digestion with beta-N-acetylhexosaminidase. The presence of a sulfate group at C4 of the penultimate GalNAc or Gal units markedly inhibited the transfer of GalNAc to the terminal GlcA, while a sulfate group at C6 of the GalNAc had little effect on the transfer. Moreover, a slight but significant transfer of [3H]GalNAc was observed to an oligosaccharide containing terminal 2-O-sulfated GlcA as acceptor, whereas no incorporation was detected into oligosaccharides containing terminal unsaturated or 3-O-sulfated GlcA units. These results suggest that this novel serum enzyme is a UDP-GalNAc:chondro-oligosaccharide alpha 1-3- or 1-4-N-acetylgalactosaminyltransferase. The possibility of involvement of this enzyme in glycosaminoglycan biosynthesis is discussed.
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PMID:N-acetylgalactosamine (GalNAc) transfer to the common carbohydrate-protein linkage region of sulfated glycosaminoglycans. Identification of UDP-GalNAc:chondro-oligosaccharide alpha-N-acetylgalactosaminyltransferase in fetal bovine serum. 767 97

The relationship between sulfation and polymerization in chondroitin sulfate (CS) biosynthesis has been poorly understood. In this study, we investigated the specificity of bovine serum UDP-GalNAc: CS beta-GalNAc transferase responsible for chain elongation using structurally defined acceptor substrates. They consisted of tetra- and hexasaccharide-serines that were chemically synthesized and various regular oligosaccharides with a GlcA residue at the nonreducing terminus, prepared from chondroitin and CS using testicular hyaluronidase. The enzyme preparation was obtained from fetal bovine serum by means of heparin-Sepharose affinity chromatography. The preparation did not contain the alpha-GalNAc transferase recently demonstrated in fetal bovine serum (Kitagawa et al., J. Biol. Chem., 270, 22190-22195, 1995), that utilizes common acceptor substrates. The beta-GalNAc transferase used as acceptors, two hexasaccharide-serines GlcA beta 1-3GalNAc beta 1-4GlcA beta 1-3Gal beta 1-3Gal beta 1-4Xyl beta 1-O-Ser and GlcA beta 1-3GalNAc(4-sulfate) beta 1-4GlcA beta 1-3Gal (4-sulfate) beta 1-3Gal beta 1-4Xyl beta 1-O-Ser, but neither the monosulfated hexasaccharide-serine GlcA beta 1-3GalNAc(4-sulfate) beta 1-4GlcA beta 1-3Gal beta 1-3Gal beta 1-4Xyl beta 1-O-Ser nor tetrasaccharide-serines with or without a sulfate group at C-4 of the third sugar residue Gal-3 from the reducing end. The results indicated that the sulfate group at the Gal-3 C-4 markedly affected the transfer of GalNAc to the terminal GlcA. In addition, a sulfate group at C-4 of the reducing terminal GalNAc of regular tetrasaccharides remarkably enhanced the GalNAc transfer, suggesting that the enzyme recognizes up to the fourth saccharide residue from the nonreducing end. The level of incorporation into a tetra- or hexasaccharide containing a terminal 2-O-sulfated GlcA residue was significant, whereas there was no apparent incorporation into tetra- or hexasaccharides containing a terminal 3-O-sulfated GlcA or penultimate 4,6-O-disulfated GalNAc residue. These results indicated that sulfation reactions play important roles in chain elongation and termination.
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PMID:Regulation of chondroitin sulfate biosynthesis by specific sulfation: acceptor specificity of serum beta-GalNAc transferase revealed by structurally defined oligosaccharides. 918 34

Glycoconjugate modifications were analysed in the zona pellucida during development of oocytes in dog and cat using conventional histochemical staining methods with or without previous carbohydrate digestion. A series of lectins combined with desulphation and sialic acid degradation were applied. No differences were observed between dog and cat follicles using conventional histochemical staining methods. In both species, the zona pellucida and follicular fluid/intercellular matrix strongly reacted with PAS and high iron diamine stain (HID) and reacted moderately with low iron diamine stain (LID). Treatment with testicular hyaluronidase, chondroitinase ABC, chondroitinase AC and chondroitinase B treatment diminished HID and LID positivity of follicular fluid and intercellular matrix. Lectins that gave the most intense staining of the zona pellucida of both species were SBA, PNA, RCA-I, GSA-IB4 and WGA, indicating the presence of beta-D-GalNAc, D-Gal and GlcNAc residues. Sulpho- and asulpho-carbohydrates were identified in terminal and/or subterminal positions linked to sialic acid residues. In conclusion, the results indicate that glycosaminoglycans are not present in the zona pellucida of both species. Differences were observed in carbohydrate residues and in their spatial distribution, depending on species and developmental stage of the follicles. The similarity in lectin affinity between ooplasm and zona pellucida of oocytes present in follicles at different stages of development confirm the involvement of oocytes in zona pellucida production.
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PMID:Glycohistochemical investigation of canine and feline zonae pellucidae of preantral and antral oocytes. 1033 57

The glycosaminoglycan chain of decorin from human spinal ligaments was digested using the hydrolysis of bovine testicular hyaluronidase. As a result, decorin with hexasaccharide, octasaccharide, and decasaccharide including the linkage region, GlcA-Gal-Gal-Xyl, was obtained. The obtained decorin as an acceptor and hyaluronic acid as a donor were incubated with bovine testicular hyaluronidase under the condition of transglycosylation reaction. The transglycosylation reaction product had hexasaccharide to triacontasaccharide. Judging from the analysis of glycosaminoglycan chain in the transglycosylation reaction product, it was confirmed that hyaluronic acid chain as a donor was transferred to the retained glycosaminoglycan chain of decorin as an acceptor. Similarly, it was possible to reconstruct the glycosaminoglycan chain in decorin to chondroitin, chondroitin 4-sulfate or chondroitin 6-sulfate. Therefore, we succeeded in synthesizing an artificial family of decorins.
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PMID:Reconstruction of glycosaminoglycan chains in decorin. 1237 9


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