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)

To clarify the relationship of the 290 and 145 kDa chains of the epidermolysis bullosa acquisita (EBA) antigen, we subjected urea extracts of skin basement membrane zone (BMZ) proteins and isolated 290 and 145 kDa chains of the EBA antigen cut out of sodium dodecyl sulfate polyacrylamide gels to treatment with clostridial collagenase. When the reaction products were electrophoresed, transblotted, and reacted with EBA patient sera or two monoclonal antibodies to the EBA antigen, the 290 kDa chain was degraded into the 145 kDa band that was resistant to cleavage with collagenase. The 145 kDa domain, isolated after collagenase treatment of the whole BMZ extract, was resistant to degradation by hyaluronidase, chondroitinase ABC, heparinase, and heparitinase but was readily degraded by V-8 protease. These data suggest that the EBA antigen consists of collagen and noncollagen domains of identical size (Mr 145,000), and that the 145 kDa noncollagen domain is generated via degradation of the native 290 kDa species by collagenase.
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PMID:Epidermolysis bullosa acquisita antigen: relationship between the collagenase-sensitive and -insensitive domains. 282 79

Heparan sulfate proteoglycans (HSPG) were solubilized from human lung fibroblast monolayers with detergent. Presumptive membrane-associated forms displaying hydrophobic properties were purified by gel filtration on Sepharose CL-4B, by ion-exchange chromatography on Mono Q and by incorporation in lipid vesicles. The HSPG preparations were 125I-iodinated and treated with heparitinase before sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Five radiolabeled proteins with apparent molecular weights of 125,000, 90,000, 64,000, 48,000, and 35,000 were visualized by autoradiography. A sixth protein, identified in nonreduced 125I-HSPG preparations, appeared as a non-HS chain-bearing Mr 35,000 peptide which was disulfide-linked to an HS chain-bearing peptide of similar size. This multiplicity of core proteins did not seem to result from proteolysis during the heparitinase treatment itself, since some of the core proteins migrated independently during gel filtration before heparitinase digestion. Moreover, heparitinase digestion of 125I-HSPG purified by affinity chromatography on an immobilized monoclonal antibody yielded only the Mr 64,000 protein. Alternative depolymerizations of the HS chains by heparinase or HNO2 also yielded multiple protein bands. These results imply that heterogeneity of the core protein moiety may be a genuine property of the hydrophobic HSPG of human lung fibroblasts. The occurrence of multiple integral membrane HSPG forms may be relevant for the multiple functions that have been ascribed to cell-surface HSPG.
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PMID:Heparan sulfate proteoglycans of human lung fibroblasts. Structural heterogeneity of the core proteins of the hydrophobic cell-associated forms. 294 51

In a previous study we described a family of monoclonal antibodies directed against tracheal antigens having a variety of cellular and subcellular distributions. In the present study, we have extended our findings on four representative antibodies to determine the periodate sensitivity, glycosidase sensitivity, and apparent molecular weight of the corresponding antigens. Since mild periodate oxidation selectively cleaves carbohydrate moiety leaving amino acids intact, loss of antigenicity following this treatment suggests the involvement of sugar residues in the antigenic determinant. This can be confirmed by testing the sensitivity of the antigens to specific glycosidases. By enzyme-linked immunosorbent assay (ELISA), all four antibodies were found to have highest affinity for void volume components isolated by Bio-Gel A15m chromatography of the total tracheal secretion. Further analysis of this void volume material by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions followed by immunoblot analysis revealed that all antigens were carried by high-molecular-weight species (greater than 200,000) which were periodate-Schiff positive but reacted poorly with Coomassie blue. In parallel experiments using immunofluorescence and ELISA, antibody binding was compared under control conditions and following periodate treatment of antigens under varying intensities (10 mM IO4-, 10 min, 4 degrees C; 50 mM IO4-, 1 h, 4 degrees C; 100 mM IO4-, 12 h, 20 degrees C). Similar results were obtained with the two methods, indicating a partial loss of antigenicity for one of the four antigens following the mildest periodate treatment, and total loss of antigenicity for all four antigens following each of the two prolonged treatments. All four antigens showed marked sensitivity to digestion with mixed exoglycosidases and three antigens were also susceptible to endo-beta-galactosidase digestion. Antigenicity was not decreased during incubation with chondroitinase ABC, heparitinase, or heparinase. Immunofluorescence analysis of tracheal tissue sections showed that the four antibodies recognized determinants in different locations, including gland and goblet cell cytoplasmic granules and the apical epithelial membrane. The characteristic immunofluorescence patterns of all antibodies were abolished by periodate incubation of the tracheal sections. Thus, the four antibodies appear to recognize carbohydrate antigens carried by high-molecular-weight glycoproteins, each with different cellular origins.
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PMID:Tracheal carbohydrate antigens identified by monoclonal antibodies. 301 42

Inhibition of thrombin by heparin cofactor II (HCII) is accelerated by dermatan sulfate, heparan sulfate, and heparin. Purified HCII or defibrinated plasma was incubated with washed confluent cell monolayers, 125I-thrombin was added, and the rate of formation of covalent 125I-thrombin-inhibitor complexes was determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Fibroblasts and porcine aortic smooth muscle cells accelerated inhibition of thrombin by HCII 2.3-7.5-fold but had no effect on other thrombin inhibitors in plasma. Human umbilical vein endothelial cells and mouse macrophage-derived cells did not accelerate the thrombin-HCII reaction. IMR-90 normal human fetal lung fibroblasts treated with heparinase or heparitinase accelerated the thrombin-HCII reaction to the same degree as untreated cells. In contrast, treatment with chondroitinase ABC almost totally abolished the ability of these cells to activate HCII while chondroitinase AC had little or no effect, suggesting that dermatan sulfate was responsible for the activity observed. [35S]Sulfate-labeled proteoglycans were isolated from IMR-90 fibroblast monolayers and conditioned medium and fractionated into two peaks on Sepharose CL-2B. The lower Mr proteoglycans contained 74-76% dermatan sulfate and were 11-25 times more active with HCII than the higher Mr proteoglycans which contained 68-97% heparan sulfate. The activity of the lower Mr proteoglycans decreased 70-90% by degradation of the dermatan sulfate component with chondroitinase ABC. These results confirm that dermatan sulfate proteoglycans are primarily responsible for activation of HCII by IMR-90 fibroblasts. We suggest that HCII may inhibit thrombin when plasma is exposed to vascular smooth muscle cells or fibroblasts.
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PMID:Activation of heparin cofactor II by fibroblasts and vascular smooth muscle cells. 379 24

Heparinase (EC 4.2.2.7) isolated from Flavobacterium heparinum was purified to homogeneity by a combination of hydroxylapatite chromatography, repeated gel filtration chromatography, and chromatofocusing. Homogeneity was established by the presence of a single band on both sodium dodecyl sulfate and acid-urea gel electrophoretic systems. Amino acid analysis shows that the enzyme contains relatively high amounts of lysine residues (9%) consistent with its cationic nature (pI 8.5) but contains only 4 cysteine residues/polypeptide. The molecular weight of heparinase was estimated to be 42,900 +/- 1,000 daltons by gel filtration and 42,700 +/- 1,200 daltons by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The enzyme is very specific, acting only on heparin and heparan monosulfate out of 12 similar polysaccharide substrates tested. It has an activity maximum at pH 6.5 and 0.1 M NaCl and a stability maximum at pH 7.0 and 0.15 M NaCl. The Arrhenius activation energy was found to be 6.3 kcal/mol. However, the enzyme is very sensitive to thermal denaturation and loses activity very rapidly at temperatures over 40 degrees C. Kinetic studies of the heparinase reaction at 37 degrees C gave a Km of 8.04 X 10(-6) M and a Vm of 9.85 X 10(-5) M/min at a protein concentration of 0.5 microgram/ml. By adapting batch procedures of hydroxylapatite and QAE (quaternary aminoethyl)-Sephadex chromatography, gram quantities of heparinase that is nearly free of catalytic enzyme contaminants can be purified in 4-5 h.
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PMID:Purification and characterization of heparinase from Flavobacterium heparinum. 396 88

Glomeruli isolated from rat kidney were incubated with [14C]glucosamine and [35S]sulfate. Linear incorporation of [14C]glucosamine into total glycosaminoglycans was observed during incubation up to 24 h. More than 95% of the 35S-labeled sulfated glycoconjugates were extracted from the tissue with 4 M guanidine HCl, 50 mM sodium acetate, pH 6.0, and 0.5% Triton X-100, and separated clearly on DEAE-Sephacel into three major fractions, i.e. sulfated glycoprotein (11% of the total radioactivity), proteoheparan sulfate (33%), and proteochondroitin sulfate (38%) fractions. The molecular weight of the 35S-labeled proteoheparan sulfate thus isolated was estimated to be about 185,000, whereas that released into the medium was estimated to be about 87,000. When the 35S-labeled heparan sulfate isolated on Sephadex G-75 after mild alkaline borohydride treatment was digested with a combination of heparitinase and heparinase, approximately 70% of the radioactivity was converted to 2-acetamido-2-deoxy-4-O-(alpha-D-gluco-4-enepyranosyluronic acid)-6-O-sulfo-D- glucose.
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PMID:Isolation and characterization of proteoheparan sulfate synthesized in vitro by rat glomeruli. 622 84

The glycosulphatase which hydrolyses the 2-O-sulphate of the disaccharide, 4-deoxy-2-O-sulphato-alpha-L-threohex-4-enopyranosyl uronic acid-(1----4)-2-deoxy-2-sulphamido-6-O-sulphato-D-glucose (delta UA-2S----GlcNS-6S), has been isolated from the soluble fraction of disrupted Flavobacterium heparinum. The activity was purified 3300-fold by chromatography on CM-Sepharose CL-6B, hydroxyapatite, taurine-Sepharose CL-4B and blue-Sepharose CL-6B. From sodium dodecylsulphate/polyacrylamide gel electrophoresis, the enzyme was homogeneous and of 62000 Mr. A novel assay was devised using the de-N-sulphonated [1-3H]alditol, 4-deoxy-2-O-sulphato-alpha-L-threo-hex-4-enopyranosyl uronic acid-(1----4)-2-amino-2-deoxy-6-O-sulphato-D-[1-3H]glucitol (delta UA-2S----[1-3H]GlcNH2-ol-6S). This alditol was shown by 13C-NMR to be desulphated in the analogous manner to the original reducing trisulphated disaccharide. The purified 2-O-sulphatase was completely free of heparinase I, heparinase II (heparitinase), chondroitinases AC, chondroitinase B, the delta 4,5-glycuronidase for heparin delta 4,5-disaccharides, the 6-O-sulphatase and the 2-sulphamidase. It was optimally active over the range pH 5.5-6.5 and was practically unaffected by Na, K, Ca or Mg ions. Inorganic phosphate inhibited the activity. The Km value for the alditol substrate was 1.22 mmol dm-3. Using 13C-NMR, the 2-O-sulphatase was found to hydrolyse the analogous esters of higher delta 4,5-oligosaccharides from heparin. This contrasts with the findings of other authors [Dietrich, C. P., Silva, M. E., and Michelacci, Y. M. (1973) J. Biol. Chem. 248, 6408-6415].
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PMID:Flavobacterium heparinum 2-O-sulphatase for 2-O-sulphato-delta 4,5-glycuronate-terminated oligosaccharides from heparin. 651 Apr 19

The fibroblast growth factors (FGFs) act through high affinity tyrosine kinase receptors and, in addition, interact with lower affinity receptors that represent cell- or matrix-associated heparan sulfate proteoglycans. These lower affinity receptors modulate the biological activities of FGFs, but the mechanism by which they exert these effects is rather controversial. We have previously shown (Ron, D., Bottaro, D. P., Finch, P. W., Morris, D., Rubin, J. S., and Aaronson, S. A. (1993) J. Biol. Chem. 268, 2984-2988) that heparin potentiates the mitogenic activity of acidic FGF (aFGF) but inhibits that of the keratinocyte growth factor (KGF) in cells that express the KGF receptor (KGFR). Both growth factors bind the KGFR with high affinity. To gain an insight into the mechanism by which heparin modulates the biological activity of aFGF and KGF, we studied the effect of heparin and cell-associated heparan sulfates on the binding of these two growth factors to the KGFR. To work in a well defined system, we expressed functional KGFR in L6E9 myoblasts that lack detectable high affinity binding sites for FGFs. Low concentrations of heparin inhibited the binding of KGF to the KGFR. By contrast, similar concentrations of heparin enhanced the binding of aFGF to this receptor. The effect of heparin was not unique to L6E9 cells expressing the KGFR; it was also observed in Balb/MK cells that naturally express KGFR. Treatment of cells with sodium chlorate, which blocks sulfation of proteoglycans, reduced the binding of aFGF to its low and high affinity binding sites by 95 and 80%, respectively. In contrast, the binding of KGF to its high affinity binding sites was enhanced about 2-fold. Similar results were obtained after degradation of cell-associated heparan sulfates by heparinase and heparitinase. Heparin restored the high affinity binding of aFGF to chlorate-treated cells and completely abolished the high affinity binding of KGF. Binding competition experiments suggest that aFGF and KGF bind to the same population of cell-associated heparan sulfates. In addition, KGF is apparently interacting with an as yet unidentified type of low affinity binding site that is not affected by chlorate or heparan sulfate-degrading enzymes. An important property of the FGF high affinity receptors is their ability to bind more than one ligand with high affinity. Based on the differential effect of cell-associated heparan sulfates on the binding of KGF and aFGF to the KGFR, we propose a regulatory role for cell-associated heparan sulfates as coordinators of the interaction of aFGF and KGF with the KGFR.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Differential effect of cell-associated heparan sulfates on the binding of keratinocyte growth factor (KGF) and acidic fibroblast growth factor to the KGF receptor. 752 11

Lipoprotein lipase (LPL) is rapidly and efficiently cleared from the circulation by the liver through an as yet unclear mechanism. In the present study, we determined the nature of LPL interactions with the liver parenchimal cell line HepG2 as compared to other cells in culture. Binding, cell association and degradation of 125I-labelled bovine milk LPL by HepG2 cells, normal and low density lipoprotein (LDL) receptor-negative human fibroblasts and Chinese hamster ovary (CHO) cells show similar values irrespective of source and origin. LPL metabolism in HepG2 cells was characterized by a high capacity to degrade the enzyme, an extremely high sensitivity to heparin and was inhibited by 60%-70% after treatment of the cells with sodium chlorate and heparinase (but not chondroitinase). These findings suggested an important role for heparan sulfate in the process of cell interaction and metabolism of LPL. To further clarify the role of heparan sulfate in determining the LPL-cell interactions, we compared the metabolism of LPL in wild type and mutant heparan sulfate-deficient CHO cells. Heparan sulfate-deficient CHO cells show a low capacity to bind and degrade LPL, about 10%-20% that of the wild type cells. In another set of experiments, we sought to determine whether LPL interactions with HepG2 cells are affected by triglyceride-rich lipoproteins. The results clearly show that whereas unlabeled LPL dramatically enhanced the metabolism of radioiodinated very low density lipoprotein (VLDL), unlabeled VLDL had no effect on radioiodinated LPL metabolism in these cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Binding to heparan sulfate is a major event during catabolism of lipoprotein lipase by HepG2 and other cell cultures. 760 68

Amplification by the polymerase chain reaction (PCR) of hepatitis B virus (HBV) DNA extracted from parallel samples of serum and heparinized plasma gave contradictory results, indicating that heparin inhibits virus detection. Similarly, analysis of PCR products of woodchuck hepatitis virus (WHV) DNA showed that heparinization of blood abolished WHV DNA amplification, while anticoagulation with sodium EDTA or acid citrate dextrose did not. Amplification of recombinant WHV and HBV DNA in the presence of increasing concentrations of sodium heparin progressively inhibited and finally abolished virus genome detection. The inhibitory effect of heparin was reversed by treatment of either plasma or isolated DNA with heparinase (5 U/reaction, 1 h at 28 degrees C) prior to PCR. In contrast, heparin did not influence the detection of hepadnavirus in peripheral blood mononuclear cells (PBMC), even after prolonged incubation of the cells with heparin in culture. These findings confirm that heparin exerts a dramatic inhibitory effect on hepadnaviral DNA detection by PCR and they demonstrate that this effect can be reversed by heparinase. The findings also show that extensively washed PBMC derived from heparinized blood can be a reliable source of nucleic acids for amplification of hepadnavirus genome. These results imply that previous data should be reassessed if samples of heparinized plasma were found hepadnavirus DNA nonreactive by PCR or when these samples were used as a starting material for PCR quantitation of viral genome.
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PMID:Detection of hepatitis B and woodchuck hepatitis viral DNA in plasma and mononuclear cells from heparinized blood by the polymerase chain reaction. 773 48


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