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:4.2.2.7 (heparinase)
1,270 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

When cultures of endothelial cells prelabeled with H2 -35-SO4 are exposed to a purified preparation from induced Flavobacterium heparinum containing heparinase and heparitinase activities, radioactivity accumulates in the supernatant medium. After further treatment in vitro with crude enzyme this material migrates, in part, as glucosamine (N,O-disulfated glucosamine), a break-down product characteristic of heparin and heparin-related mucopolysaccharides. After exposure of the cultures to the purified enzyme, the amount of acid-insoluble -3 5-S radioactivity that can be removed with EDTA is decreased compared to that that can be removed from control cultures. Since the amount of radioactivity that is released as break-down products is much higher than the amount of radioactivity that is secreted into the supernatant medium as intact (non-dialysable) mucopolysaccharide chains in control plates, the action of the enzyme appears to be on the cell itself. The data presented support previous studies suggesting that chains of heparitin sulfate that are accessible to the action of the enzyme are present at the surface of endothelial cells.
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PMID:Enzymatic degradation of heparin-related mucopolysaccharides from the surface of endothelial cell cultures. 12 75

The analyses of the products formed from heparitin sulfates by the action of two heparitinases and a heparinase from Flavorbacterium heparinum is reported. Heparitin sulfates A and B are degraded by heparitinase I yielding two disaccharides, one of them composed of N-acetylucosamine and an unsaturated uronic, joined by alpha(1 lead to 4) linkage, and the other, with the same composition but with an O-sulfate at the hexosamine moiety. A third disaccharide is also formed from heparitin sulfate B, by the action of the same enzyme, composed of glucosamine N-sulfate and an unsaturated uronic acid joined probably by alpha(1 lead to 4) linkage. Besides these three disaccharides, heparitin sulfate B yields, by the action of heparitinase I, an oligosaccharide (with an average molecular weight of 6000) which is completely degraded by the heparitinase II yielding a disaccharide composed of glucosamine 2,6-disulfate and unsaturated uronic acid. All the disaccharides are further degraded by alpha-glycuronidase from Flavobacterium heparinum yielding the respective monosaccharides. Based on these and other analyses the possible structures of the heparitin sulfates are proposed.
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PMID:On the structure of heparitin sulfates. Analyses of the products formed from heparitin sulfates by two heparitinases and a heparinase from Flavobacterium heparinum. 13 67

Glycosaminoglycans have been characterized from a normal human breast cell line (HBL-100) and two different cell lines from human breast carcinoma (MDA-MB-231 and MCF-7). The glycosaminoglycans were labeled by exposure of cell cultures to [3H]glucosamine and [35S]sulfate and then isolated from both spent media and cells by pronase digestion and cetylpyridinium chloride fractionation. They were further characterized by (a) hexosamine composition, (b) controlled-pore glass exclusion chromatography, (c) reactivity with specific enzymes (hyaluronidase chondroitinase, heparitinase, and heparinase), (d) nitrous acid degradation, and (e) DEAD-Sephadex chromatography. The results indicate that the HBL-100 line synthesizes mainly hyaluronic acid, most of which is secreted into the medium. Chondroitin sulfate and heparan sulfate are the predominant glycosaminoglycans synthesized by the cancer lines; both are found mainly in the spent medium, but the hyaluronic acid synthesized by the MDA-MB-231 line remains cell associated. The cell-associated heparan sulfate had a molecular weight in excess of 13,000 and may contain linkages susceptible to testicular hyaluronidase. The MCF-7 cells produce significantly lower amounts of glycosaminoglycans than do the other two lines.
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PMID:Glycosaminoglycans of normal and malignant cultured human mammary cells. 42 76

Heparinase was isolated from a transplantable mouse mastocytoma, by salt extraction of a particulate fraction sedimenting at 20,000 times g, followed by precipitation from saturated ammonium sulfate. By use of gel chromatography through Sepharose 4B, the enzyme was shown to degrade macromolecular. 35S-labeled, mastocytomal heparin (K-av about 0.25) to products similar in size to commercial heparin (K-av about 0.85), apparently by nonrandom cleavage of a limited number of glycosidic linkages per molecule. Prolonged incubation times (up to 5 days, with repeated addition of enzyme) did not result in further degradation of the product. No significant depolymerizing activity was observed with any other glycosaminoglycan tested, including chondroitin sulfate, dermatan sulfate, hyaluronic acid, heparan sulfate, and commercial heparin. The pH optimum for degradation of macromolecular heparin was around pH 5. The nature of the linkage cleaved by the heparinase was investigated by reduction of unlabeled polysaccharide degradation products with sodium [3H]borohydride. The degraded chains (but not the macromolecular substrate) incorporated significant amounts of tritium. An essentially monodisperse fraction of the labeled, degraded heparin was subjected to meniscus depletion sedimentation equilibrium ultracentrifugation, indicating a molecular weight of 14,500. By relating the molecular weight to the specific activity of the preparation, the amount of reducible groups was calculated to be approximately one per molecule. The 3H-labeled heparin was degraded to monosaccharides by a combination of acid hydrolysis and cleavage due to deamination with nitrous acid. Analysis of the degradation products, by paper electrophoresis and paper chromatography, showed a major radioactive component which behaved like L-gulonic acid. Since [3H]gulonic acid would be the expected reduction product of a polysaccharide molecule, containing a glucuronic acid residue in terminal position, these results tentatively suggest that the heparinase is an endoglucuronidase. By direct deaminative cleavage (no hydrolysis) of the 3H-labeled heparin, the glucosamine unit in penultimate position (i.e. adjacent to the [3H]gulonic acid residue) was shown to be 52% N-sulfated and 48% N-acetylated. As only 14% of the glucosamine was N-acetylated in the macromolecular heparin substrate, it is suggested that cleavage of this polysaccharide, by the heparinase, occurs in regions more abundant in N-acetylated glucosamine residues than other portions of the molecule. The possibility that formation and degradation of macromolecular heparin occurs also in mammalian species other than rodents in discussed.
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PMID:Cleavage of macromolecular heparin by an enzyme from mouse mastocytoma. 80 78

Skin fibroblasts lines established from patients with Alzheimer's disease and old normal individuals were cultured with 35S-sodium sulfate and 3H-glucosamine. Proteoglycans were isolated and characterized. Sulfate incorporation into proteoglycans increased in Alzheimer's disease fibroblasts relative to normal controls. These increases changed the ratio of chondroitin sulfate to heparan sulfate proteoglycan from 1.4 to 1.7 (p = 0.0012) and decreased the ratio of cell to medium proteoglycans from 0.32 to 0.26 in normal and Alzheimer fibroblasts (p = 0.006), respectively. HPLC analysis of the disaccharides produced by chondroitinase ABC revealed no differences in composition between proteoglycans of Alzheimer and normal fibroblasts in either the cell or medium fraction. However, analysis of disaccharides produced by heparinase plus heparitinase showed differences in composition in the medium but not the cell fraction. delta UA-GlcNS was increased by 30% while delta UA-GlcNS-6S was reduced by 40% in Alzheimer's disease.
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PMID:Characterization of proteoglycans in Alzheimer's disease fibroblasts. 159 Jul 92

Two tetrasaccharides, two hexasaccharides, and a disaccharide have been purified from heparinase digests of porcine intestinal mucosal heparin in sufficient quantities to permit 13C-n.m.r. characterization of the species. The two tetrasaccharides are the sulfated iduronic acid-containing 4en-HexpA2SO3-(1----4)-alpha-D-GlcpNSO3;6SO3-(1- ---4)-alpha-L- IdopA2SO3-(1----4)-D-GlcpNSO3;6SO3 and the non-sulfated glucuronic acid-containing 4en-HexpA2SO3-(1----4)-alpha-D-GlcpNSO3;6SO3-(1- ---4)-beta-D-GlcpA-(1----4)-D- GlcpNSO3;6SO3. The two hexasaccharides are related to the two tetrasaccharides by the insertion of alpha-linked L-IdopA2SO3-(1----4)-D-GlcpNSO3;6SO3 after the non-reducing end sulfated glucosamine residue. The disaccharide is 4en-HexpA2SO3-(1----4)-alpha-D-GlcpNSO3;6SO3. The disaccharide, together with each of the iduronate-containing oligosaccharides, form one series of related di-, tetra-, and hexa-saccharides, while the disaccharide together with the glucuronate-containing oligosaccharides form a second series. Using inverse detection as a means of increasing sensitivity, two-dimensional n.m.r. 13C-1H heterocorrelation spectra have been obtained for all five oligosaccharides. The use of two-dimensional heterocorrelation n.m.r. spectroscopy offers a much less ambiguous means of making 13C resonance assignments than do traditional one-dimensional methods, while the use of inverse detection gives both greater sensitivity than direct detection, as well as values for the one-bond 13C-1H coupling constants. From a knowledge of the assignments of resonances in the 1H spectra of these species, it has been possible to assign almost all of the 13C resonances of these five oligosaccharides. Some corrections to previously published assignments for the tetrasaccharides have been made. In addition, one-bond 13C-1H coupling constant data have been obtained for all of the anomeric protons.
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PMID:One- and two-dimensional 13C-n.m.r. characterization of two series of oligosaccharides derived from porcine intestinal mucosal heparin by degradation with heparinase. 159 34

The synthesis and secretion of mucin-like high-molecular glycoprotein was studied in 2 human colon cancer cell lines that spontaneously differentiate in culture (Caco-2 and T84) and in 2 cell lines that do not spontaneously differentiate (LS174T and HT29). Mucin, quantitated by 3H-glucosamine labelling and chromatography on Sepharose CL-4B was found to be produced by all 4 cell lines. The mucinous nature of the labelled high-molecular glycoprotein was verified by enzymatic degradation treatments (heparinase, hyaluronidase, chondroitinase ABC, and N-glycanase), alkaline-borohydride treatment, inhibition of labelling by the glycosylation inhibitor benzyl-alpha-GalNAc, and by CsCl-density-gradient centrifugation. In all 4 cell lines, an inverse correlation of mucin synthesis with cell density was demonstrated. In Caco-2 cells, the spontaneous post-confluent enterocytic differentiation with increased brush-border enzyme expression was associated with a decrease in mucin synthesis and in the activities of polypeptidyl GalNAc transferase and beta 1,3-galactosyltransferase activity. Using cDNA probes for 2 distinct human intestinal mucins (MUC2 and MUC3), we found that all 4 colon cancer cell lines expressed mucin message, but the types of mucin mRNA expressed differed. These data indicate that mucin-like glycoproteins can be synthesized by cell lines derived from non-mucinous colon cancer, whether or not they undergo spontaneous differentiation in culture. These cell lines may serve as in vitro models for studying apomucin heterogeneity and control of mucin gene expression.
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PMID:Mucin synthesis and secretion in relation to spontaneous differentiation of colon cancer cells in vitro. 172 5

The synthesis of metabolically labeled proteoglycans and glycosaminoglycans from medium, cell layer and substrate attached material by rat glomerular mesangial cells in culture was characterized. The cellular localization of the labeled proteoglycans and glycosaminoglycans was determined by treating the cells with Flavobacterial heparinase. Of the total sulfated glycosaminoglycans, 33% were heparan sulfate; 55% of the cell layer material was heparan sulfate; 80% of sulfated proteins in the medium were chondroitin sulfate/dermatan sulfate. Putative glycosaminoglycan free chains of heparan sulfate and chondroitin sulfate were found in both the medium and cell layer; 95% of total proteoglycans and most (90%) of the putative heparan sulfate free chains were removed from the cell layer by the heparinase, whereas only 50% of the chondroitin sulfate and 25% of dermatan sulfate were removed. Large amounts of hyaluronic acid labeled with 3H glucosamine were found in the cell layer. In summary, approximately 60% of total sulfated glycoproteins was in the form of putative glycosaminoglycan free chains. Thus rat mesangial cells may synthesize large amounts of putative glycosaminoglycan free chains, which may have biological functions in the glomerulus independent of proteoglycans.
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PMID:Proteoglycan and glycosaminoglycan synthesis by cultured rat mesangial cells. 190 68

The domain structure of heparan sulphate chains from an endothelial low-density proteoglycan was examined using specific degradations of the chains while attached to the intact proteoglycan. 'Inner' chain fragments, remaining on the protein core, were separated from 'outer' fragments by gel chromatography, and were subsequently released from the protein core by alkaline cleavage. The structure of 'inner' and 'outer' chain fragments was then examined and compared. Using deaminative cleavage we obtained evidence that the first N-sulphated glucosamine residue is variably positioned some 10-17 disaccharides from the xylose-serine linkage of the proteoglycan. Digestion with heparinase yielded 'inner' and 'outer' fragments covering a broad range of different sizes, indicating a scarce and variable distribution of sulphated iduronic acid in the native chains. N-sulphated glucosamine occurred more frequently in the 'outer' fragments. We also studied the affinity of the endothelial heparan sulphate chains towards two presumptive biological ligands, namely antithrombin III and lipoprotein lipase. A major part of the endothelial heparan sulphate chains showed a weak affinity for antithrombin III and the affinity was essentially lost on heparinase digestion. On lipoprotein lipase-agarose the endothelial heparan sulphate chains were eluted at the same salt concentration as heparin, and the binding persisted, although with decreased strength, after digestion with heparinase.
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PMID:Domain structure of endothelial heparan sulphate. 195 77

The structure of human skin fibroblast heparan sulphate has been examined by depolymerization with heparinase, which specifically cleaves highly sulphated disaccharides of structure GlcNSO3 (+/-6S)-alpha 1,4IdoA(2S) [N-sulphated glucosamine (6-sulphate)-alpha 1,4-iduronic acid 2-sulphate]. Heparan sulphate contained only a small proportion (approximately 10%) of linkages susceptible to this enzyme. The major products of depolymerization with heparinase were large oligosaccharides with an average molecular mass of 10 kDa (dp approximately 40, where dp is degree of polymerization; for disaccharides, dp = 2 etc.) as assessed by gel filtration on Sepharose CL-6B, compared with a molecular mass of 45 kDa (dp approximately 200) for the intact chains. The large heparinase-resistant oligosaccharides were highly susceptible to depolymerization with the enzyme heparitinase, which cleaves heparan sulphate in areas of low sulphation, where N-acetylated disaccharides [GlcNAc-alpha 1,4GlcA (N-acetylglucosaminyl-alpha 1,4-glucuronic acid)] are the predominant structural unit. Further analysis of the location of the heparinase cleavage sites indicated that they were predominantly found in a central position in GlcNSO3-alpha 1,4IdoA repeat sequences of average length four to seven disaccharides (dp 8-14). These results indicate that heparinase cleaves heparan sulphate in approximately four or five N-sulphated domains, each domain containing a cluster of two or three susceptible disaccharides; the domains are separated by long N-acetyl-rich sequences that are markedly deficient in sulphate groups. On the basis of these findings a model is proposed which depicts heparan sulphate as an ordered polymeric structure composed of an alternate arrangement of sulphate-rich and sulphate-poor regions. The sulphate-rich regions are likely to be flexible areas of the chain because of their high content of the conformationally versatile IdoA and IdoA(2S) residues. The model has important implications for the biosynthesis and functions of heparan sulphate.
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PMID:Distribution of iduronate 2-sulphate residues in heparan sulphate. Evidence for an ordered polymeric structure. 199 55


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