EC:4.2.2.7 - FACTA Search

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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)

Uterine slices obtained from the estrogen-treated rabbits were digested with pronase. Glycosaminoglycans and acidic glycopeptides were then isolated by Dowex 1 column chromatography and preparative electrophoresis on cellulose acetate membrane (Separax), in succession. Each subfraction thus obtained was identified by the mobility on Separax electrophoresis and the digestibility with mucopolysaccharidases (Streptomyces hyaluronidase, testicular hyaluronidase, chondroitinase AC, chondroitinase ABC and heparinase). The resulting data showed that each complex saccharide (hyaluronic acid, heparan sulfate, chondroitin sulfate A, chondroitin sulfate C, dermatan sulfate, sulfated glycopeptide and sialoglycopeptide) was separated into 2-5 fractions, indicating charge and/or molecular heterogeneity of each complex saccharide.
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PMID:Glycosaminoglycans and acidic glycoproteins in rabbit uterus under estrogenic conditions. 12

The changes in levels of glycosaminoglycans (GAGs) of the intima and media of the human artery in atherosclerosis were determined by a recently introduced two-dimensional electrophoresis technique that permits direct measurments of each of these macromolecules. To identify the arterial GAGs, they were fractionated by chromatography on a DEAE-Sephadex A-25 column, and the resulting three fractions (hyaluronic acid [HA], heparan sulfate [HS], and the partially separated chondroitin sulfates B [CSB] and C [CSC]) were analyzed for their electrophoretic mobilities by this electrophoretic method, for their digestability by highly specific hydrolases (leech hyaluronidase, heparinase, and chondroitinases ABC and AC) and for their iduronic acid content. From these studies we concluded that normal and atherosclerotic human aortas contain CSB, CSC, HA, and HS. Further, we demonstrated that CSB is a hybrid consisting of approximately 40% CSA and 60% CSB and that CSC appears to be a polymer consisting essentially of glucuronic acid and N-acetylgalactosamine-6-sulfate. Classical CSA as well as chondroitin (CH) were not present in detectable amounts. In the relatively normal intima, the mean concentrations of the GAGs were found to be 4.7, 20.9, 1.3, and 5.1 mg/g of dry, defatted, decalcified tissue for CSB, CSC, HA, and HS, respectively. With the progression of atherosclerosis, there was a pronounced decrease in the total GAG content (from 32 to 18 mg) associated with a decrease in the CSC and HS levels but without a change in the HA concentrations. Of particular interest, however, was the increase in the CSB level. In the media whose total GAG content averaged approximately 20 mg, no significant changes in these GAG levels were noted with the progression of the disease except for that of CSC. These findings may be important in explaining the increased lipoprotein and collagen deposition in the diseased aorta.
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PMID:The glycosaminoglycans of the human artery and their changes in atherosclerosis. 13 44

Glycosaminoglycans were isolated from purified fractions of glomerular basement membranes and partially characterized by chemical analysis and cellulose acetate electrophoresis. Basement membranes were prepared by detergent treatment of rat glomeruli and subjected to digestion with papain and Pronase. Glycosaminoglycans were isolated from the digests by precipitation with cetyl pyridinium chloride and ethanol. Results of cellulose acetate electrophoresis of the isolated glycosaminoglycan fraction revealed the presence of one major and one minor spot. The major spot was identified as heparan sulfate because it comigrated with the heparan sulfate standard and was sensitive to heparinase and to nitrous acid oxidation but insensitive to chondroitinase ABC and to testicular or leech hyaluronidase. The minor spot was tentatively identified as hyaluronic acid based on its migratory behavior and sensitivity to leech and testicular hyaluronidase. The chemical composition of the isolated glycosaminoglycan was typical of that of heparan sulfate (high carbazole/orcinol ratio, high sulfate content, absence of galactosamine). The data support and confirm the cytochemical data obtained previously [Kanwar, Y. S. & Farquhar, M. G. (1979) Proc. Natl. Acad. Sci. USA 76, 1303-1307] demonstrating that heparan sulfate is the only sulfated glycosaminoglycan detectable in the glomerular basement membrane. The present results suggest that in addition to sulfated glycosaminoglycan some nonsulfated glycosaminoglycan (hyaluronic acid) may also be present in the glomerular basement membrane.
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PMID:Isolation of glycosaminoglycans (heparan sulfate) from glomerular basement membranes. 15 57

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

Acidic glycoconjugates (glycosaminoglycans and glycoprotein) were obtained, from myometrium of ovariectomized rabbit under estrogenic condition, by pronase digestion, fractionation with cetylpyridinium chloride and Dowex I column chromatography, in succession. Composition of acidic glycoconjugates was determined enzymatically, employing Streptomyces hyaluronidase, chondroitinase AC II, chondroitinase ABC and crude heparinase. Each glycoconjugate was distributed in 3 approximately 8 fractions obtained by Dowex I column chromatography, indicating its charge and/or molecular heterogeneity. Acidic glycoconjugates consisted of hyaluronic acid (13.4%), chondroitin sulfates A plus C (39.4%), dermatan sulfate (24.6%), heparan sulfate (18.7%) and acidic glycoprotein (most probably sialoglycoprotein) (3.9%). Composition of acidic glycoconjugates in myometrium differed remarkably from that in whole uterus. Myometrium was abundant in chondroitin sulfate isomers (chondroitin sulfates A plus C plus dermatan sulfate), but lacked sulfated glycoprotein. The present results suggested that myometrium and endometrium of uterus may play quite different roles in reproduction.
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PMID:Composition of acidic glycoconjugates (glycosaminoglycans and glycoprotein) in myometrium of rabbit uterus under estrogenic condition. 71 60

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

The interaction of heparin (HP) with the cell-surface components of a human uterine epithelial carcinoma cell line (RL95) was studied. Binding of [3H]HP to cell surfaces was saturable in a dose- and time-dependent manner. HP and certain forms of heparan sulfate (HS) efficiently compete for [3H]HP binding. In contrast, other glycosaminoglycans, such as chondroitin sulfate, keratan sulfate, hyaluronic acid, and dermatan sulfate, do not compete for binding to these sites. Scatchard analysis revealed that [3H]HP bound to these sites with an apparent KD of 0.7-0.9 microM and a binding capacity of 9 x 10(6) sites/cell to attached cells. EDTA-detached cells displayed a similar apparent KD, but an approximately 2-fold increase in binding capacity. Protease digestion of cells on ice markedly reduced [3H]HP binding, indicating that these binding sites were associated with proteins. In contrast, heparinase treatment of cells stimulated binding by approximately 2-fold, indicating that a large fraction of these binding sites were occupied with endogenous ligand. We examined the structural features of HP/HS required for HP/HS binding. O-Sulfation, substitution of amino groups, and, to a lesser extent, the presence of carboxyl groups were important recognition features of HP/HS by cell-surface HP/HS-binding sites. N-Sulfation was not required. Photoaffinity labeling with 125I-sulfosuccinimidyl 2-(p-azidosalicylamido)-ethyl-1, 3-dithiopropionate-HP was used to identify HP/HS-binding proteins on RL95 cell surfaces. Proteins with M(r) values of 14,000-18,500 and 31,000 were photolabeled at the surfaces of attached cells. Photolabeling was blocked by the addition of excess HP, but not chondroitin sulfate. Additional proteins with M(r) values greater than 31,000 were photolabeled specifically on EDTA-detached cells. Moreover, the M(r) 14,000-18,500 and 31,000 proteins were retained on the EDTA-detached cells. These observations indicated that certain cell-surface HP/HS-binding proteins were not exposed when cells were attached to substrata. Proteins of similar M(r) values as the photolabeled components as well as many additional proteins were identified by heparin-agarose chromatographic selection of extracts of cells labeled metabolically with [35S]methionine or vectorially with Na125I at the cell surface. Fragments of cell-surface HP/HS-binding proteins were released from intact RL95 and mouse uterine epithelial cells by mild trypsinization and isolated by heparin-agarose affinity chromatography. Three peptides with M(r) values between 6000 and 14,000 required greater than 0.5 M salt for elution from heparin-agarose, retained HP binding activity in a 125I-HP gel overlay assay, and selectively bound [3H]HP in a solid-phase binding assay.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Identification of cell-surface heparin/heparan sulfate-binding proteins of a human uterine epithelial cell line (RL95). 160 62

Conditioned medium from Sertoli cells, prepared from testes of 20-day-old rats, contains component(s) that inhibit the incorporation of [3H]-thymidine into DNA of peritubular myoid cells (PMC) and inhibit the proliferation of PMC. These components are trypsin-resistant, heat-stable compounds having a molecular weight less than 30,000. The active inhibitory components in Sertoli cell conditioned medium are inactivated by treatment with heparinase, but not by treatment with hyaluronidase or chondroitin sulfate lyases. Addition of heparin or heparan sulfate results in inhibition of DNA synthesis by PMC in a dose-dependent manner, whereas other glycosaminoglycans (GAGs) examined (hyaluronic acid, keratan sulfate, and chondroitin sulfate) have no detectable effects. Heparin and heparan sulfate are unique among GAGs tested in inhibiting the characteristic multilayer growth pattern of PMC following the attainment of confluence in serum-rich medium. On the basis of these and other data presented, it is concluded that heparin and other heparin-like GAGs synthesized by Sertoli cells are implicated in the modulation of growth of PMC in vitro during co-culture. It is postulated that heparin may play a similar role in maintaining the quiescent peritubular myoid cell phenotype in vivo.
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PMID:Sertoli cells in culture secrete paracrine factor(s) that inhibit peritubular myoid cell proliferation: identification of heparinoids as likely candidates. 171 60

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

A unique heparinase was isolated from a recently discovered Gram-negative soil bacterium. The enzyme (heparinase III) was purified by hydroxylapatite chromatography, chromatofocusing, and gel permeation chromatography. The enrichment was 48x, and the specific activity of catalytically pure heparinase was 127 IU/mg of protein. Similar to the heparinase I from Flavobacterium heparinum, heparinase III also degrades heparin to mainly disaccharide fragments. It is specific for heparin and also breaks down heparan sulfate, but not hyaluronic acid and chondroitin sulfate. Heparinase III, however, differs markedly from heparinase I in several other aspects: it has a higher molecular mass (94 versus 43 kDa), pI (9.2 versus 8.5), its Km and kcat are different, and it has a higher energy of activation (15.6 versus 6.3 kcal/mol). Optimal activity was also found at higher pH (7.6 versus 6.5) and temperature (45 versus 37 degrees C). Furthermore, the amino acid composition of heparinase III is quite different from that of heparinase I.
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PMID:Purification and characterization of a novel heparinase. 216 36

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