EC:4.2.2.7 - FACTA Search

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)

Diabetes is accompanied by impaired platelet function and accelerated vascular disease. To find out whether a correlation exists between these two complications, and if modifications occurring in diabetic platelets influence their relationship with endothelium, we have studied the interaction between platelets isolated from plasma of diabetic patients and bovine valvular endothelial cells (VEC), in culture. For quantitative analysis, normal and diabetic [3H]-adenine-labeled platelets were incubated with confluent VEC grown in Dulbecco's modified Eagle medium, containing 4.5 g/l glucose, for 30 min at 37 degrees C. After extensive washing and solubilization of the monolayer, the calculated adhesion index showed a two-fold increased adherence of diabetic platelets to VEC as compared to normal platelets. Statistical analysis (by Pitman randomization test) indicated that the adhesion was significantly higher (p = 0.0003) than that of normal platelets to VEC. To partially identify the membrane components implicated in the adhesion process, either platelets or VEC were treated with neuraminidase, trypsin or heparinase prior to the adhesion assay. Trypsin or neuraminidase treatment of platelets significantly diminished their adherence to VEC, suggesting a role of platelets sialylated glycoproteins in the adhesion process. Neuraminidase or heparinase treatment of VEC increased the adhesion of both normal and diabetic platelets, indicating that the cell membrane sialyl residues and heparan sulfate participate in the normal thromboresistant properties of VEC. Transmission and scanning electron microscopy revealed a close apposition between platelets and VEC with the formation of an adhesion plaque, characterized by fine fibrillar bridges between the plasma membranes of the two cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased adhesion of human diabetic platelets to cultured valvular endothelial cells. 145 40

Hemodynamic forces continuously act on endothelial cell lining of blood vessels. Blood flow, perfusing pressure, and shear stress are known to induce the release of bioactive substances from the endothelium. Furthermore, coronary flow (CF) is a well-known stimulant of myocardial contraction. Our concern was whether other Ca(2+)-dependent responses like glycolytic flux (Gf) were also CF dependent. For this purpose, isolated guinea pig hearts were perfused with a medium containing 5 mM 3-[3H]glucose, and the 3H2O released during perfusion was measured as an index of Gf. Changes in CF within the 3- to 25-ml/min range resulted in linear increase of Gf. This stimulatory effect of CF was also observed in K(+)-arrested hearts. In addition, increasing shear stress on addition of dextran to the perfusing solution (5% and 10% wt/vol), while keeping CF constant, also stimulated Gf. We hypothesized that endothelial cell membrane glycocalyx may act as sensor to this stimuli. Thus one would expect that substances acting on these structures (enzymes heparinase, hyaluronidase, or chondroitinase or the lectin concanavalin A) when added to the perfusate might inhibit the CF-induced Gf. The results showed that concanavalin A and heparinase inhibited the Gf-CF-induced response, whereas chondroitinase and hyaluronidase had no effect. These findings suggest that there may be a selective effect of these agents affecting the Gf response to CF. Our data suggest that CF stimulates Gf through shearing forces acting on specific endothelial glycocalyx component(s). Therefore, deformation of these components could result in the transduction of physical signals into release of chemical messengers that act on the biochemical machinery of underlining parenchymal cells.
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PMID:Regulation of glycolytic flux by coronary flow in guinea pig heart. Role of vascular endothelial cell glycocalyx. 175 May 47

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

Polysaccharides and other complex carbohydrates were released by proteolysis of the chloroform-methanol insoluble residue of 10 day-old worms and eggs of Hymenolepis diminuta. Gas-liquid chromatographic analysis of alditol acetate derivatives of monosaccharides released from the polysaccharides by hydrolysis revealed that in the 10 day-old worm, glucose was the most abundant sugar, followed by galactose, glucosamine, galactosamine, fucose and possibly rhamnose. Mannose was least abundant and xylose was absent. In the egg, glucose and galactose were equally abundant, followed by the same sugars found in 10 day-old worms, and xylose was present. Uronic acid was detected in both fractions by specific chemical tests. None of the saccharide material from eggs and worms was susceptible to degradation by Streptomyces hyaluronidase, chondroitinase AC, and slightly susceptible to chondroitinase ABC, as shown by electrophoretic analysis on composite 2.2% acrylamide-agarose slab gels and 4.5/12.5% polyacrylamide gels before and after enzymatic treatment. One of the gel-separable bands, however, was degradable by both nitrous acid and Flavobacterium heparinase. Both bands from eggs were degradable by nitrous acid. These results suggest that eggs contain heparin and/or heparan sulfate and perhaps dermatan sulfate and that 10 day-old worms also have these polyglycans but possibly not chondroitin sulfate or hyaluronic acid.
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PMID:Characterization of polysaccharides of the eggs and adults of Hymenolepis diminuta. 653 86

Heparinase production by Flavobacterium heparinum in complex protein digest medium, with heparin employed as the inducer, has been studied and improved. The maximum productivity of heparinase has been increased 156-fold over that achieved by previously published methods to 375 U/liter per h in the complex medium. Rapid deactivation of heparinase activity, both specific and total, was observed at the onset of the stationary phase. Nutritional studies on growth and heparinase production showed an obligate requirement for L-histidine and no vitamin requirement. L-Methionine partially relieved the L-histidine requirement. A defined medium containing glucose, ammonium sulfate, basal salts, L-methionine, and L-histidine was developed for growth and heparinase production. The growth rate in this medium was 0.21 h-1, which is 40%, higher than that in complex medium. The maximum volumetric productivity of heparinase in the defined medium was increased to 1,475 U/liter per h, providing a 640-fold increase over that achieved by previously published methods. No rapid deactivation was observed. An examination of alternate inducers for heparinase showed that heparin degradation products, hyaluronic acid, heparin monosulfate, N-acetyl-D-glucosamine, and maltose, induce heparinase in complex medium. An Azure A assay was modified and fully developed to measure the heparin concentration during fermentation and the heparinase specific activity of crude extracts of F. heparinum obtained from sonication, thus negating the need for further purification to measure activity."
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PMID:Heparinase production by Flavobacterium heparinum. 723 92

This paper describes low-density mucus glycoconjugates released from feline trachea by dirhamnolipid (DRL), a toxin from Pseudomonas aeruginosa. Mucus glycoconjugates in feline tracheas were radiolabeled in vivo with 3H-proline and 14C-glucose. Control mucus and that released by 200 micrograms/ml DRL were dissolved in guanidine hydrochloride buffer (GuHCl) and chromatographed on Sepharose CL-2B. Molecules eluting in the void volume (V0) of the column were isolated by isopycnic density gradient centrifugation in CsCl/GuHCl. All samples gave peaks of radiolabeled and periodic acid/Schiff (PAS)-reactive material at rho = approximately 1.50 and approximately 1.60 g/ml, but DRL-stimulated samples contained low-density material (rho < 1.32 g/ml), also PAS-reactive and radiolabeled. Control secretions incubated with DRL in vitro did not form low-density material. In Triton X-100 (1% vol/vol), a nonionic detergent, low-density material behaved as smaller molecules, running in the partially included volume (Vi) of the column of Sepharose CL-2B, but still in the V0 of Sephacryl S-300. Incubation with chondroitinase ABC, heparinase II and III, and keratanase failed to change its elution profile on S-300, evidence against glycosaminoglycans; but proteolysis with trypsin or proteinase K gave two peaks, peptide fragments near the totally included volume of the column and glycopeptides in V0. The V0 glycopeptides banded between 1.50 and 1.55 g/ml in a CsCl gradient and eluted as a single peak in the Vi of Sephacryl S-400, suggesting a distinct homogeneous glycopeptide, smaller than those from normal mucins. The main 14C-labeled sugars in this glycopeptide were fucose, glucosamine, galactosamine, and galactose, consistent with a mucin. Thus, DRL releases stable but noncovalent complexes containing one or more distinct mucinlike glycoconjugates, probably combined with lipids and peptides. We discuss their possible relevance to airway diseases, including cystic fibrosis.
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PMID:Mucus glycoconjugate complexes released from feline trachea by a bacterial toxin. 787 96

We have compared the ability of lactoferrin and transferrin to interact with and donate iron to the monocytic cell line U937. About 10 times more lactoferrin was bound than transferrin, but most lactoferrin bound nonspecifically, and the degree of specific binding was similar for both proteins (2-3 x 10(6) sites/cell). The binding affinity for lactoferrin (83 nM) was about 4-fold lower than for transferrin (21 nM). Lactoferrin did not inhibit binding of transferrin, or vice versa. Binding of lactoferrin was not inhibited by 30 mM glucose or fucose nor by incubating the cells with heparinase. Transferrin, but not lactoferrin, was internalized, and 3 mM primaquine caused intracellular accumulation of transferrin but not lactoferrin. The cells rapidly acquired iron from transferrin, but uptake from lactoferrin was 10-fold slower and probably resulted from transfer of 59Fe from lactoferrin to unlabeled transferrin during culture. Lactoferrin, but not transferrin, released iron to the extracellular medium when bound to U937 cells. Lactoferrin inhibited cellular uptake of iron from Fe-nitrilotriacetate but not from transferrin. It is concluded that transferrin, but not lactoferrin, acts as an iron donor to U937 cells. Lactoferrin may regulate uptake of potentially toxic non-transferrin-bound iron.
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PMID:Binding of lactoferrin and transferrin to the human promonocytic cell line U937. Effect on iron uptake and release. 840 13

Initial binding and subsequent endocytosis of small and large chylomicron remnants by rat liver were compared. Small and large chylomicrons were obtained from mesenteric lymph of glucose- or fat-fed rats, respectively. The low-density lipoprotein (LDL) receptor was up- and down-regulated as shown by LDL receptor messenger RNA (mRNA). The rate of removal of small chylomicron remnants by isolated perfused rat livers followed closely the activity of the LDL receptor. When mRNA was undetectable, the uptake was as low as that of lymphatic small chylomicrons. In contrast, the uptake of large chylomicron remnants into perfused rat livers was unaffected by changes of the LDL-receptor activity, but significantly reduced after livers were flushed with heparin or heparinase. Large chylomicron remnants were cleared from plasma much faster than small chylomicron remnants, but were more slowly internalized into hepatocytes. Both, small and large chylomicron remnants entered the pathway of receptor-mediated endocytosis as shown by electron microscopy and analysis of isolated endosomes. Yet, large chylomicron remnants were taken up into the compartment of uncoupling of receptors and ligands and multivesicular bodies at a much slower rate. This was independent of the activity of the LDL receptor and the heparin-releasable binding site. From these findings it is concluded that large chylomicron remnants initially bind rapidly to surface components other than the LDL receptor, one of which may be hepatic lipase. Yet, the consecutive internalization is slow. In contrast, small chylomicron remnants are removed at a slower rate from plasma, binding predominantly to the LDL receptor, but are more readily taken up into endosomes.
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PMID:Differences in the mechanisms of uptake and endocytosis of small and large chylomicron remnants by rat liver. 869 Apr 3

Flavobacterium heparinum is a soil bacterium that produces several mucopolysaccharidases such as heparinase, heparitinases I and II, and chondroitinases AC, B, C and ABC. The purpose of the present study was to optimize the preparation of F. heparinum chondroitinases, which are very useful tools for the identification and structural characterization of chondroitin and dermatan sulfates. We observed that during the routine procedure for cell disruption (ultrasound, 100 kHz, 5 min) some of the chondroitinase B activity was lost. Using milder conditions (2 min), most of the chondroitinase B and AC protein was solubilized and the enzyme activities were preserved. Tryptic soy broth without glucose was the best culture medium both for bacterial growth and enzyme induction. Chondroitinases AC and B were separated from each other and also from glucuronidases and sulfatases by hydrophobic interaction chromatography on HP Phenyl-Sepharose. A rapid method for screening of the column fractions was also developed based on the metachromatic shift of the color of dimethylmethylene blue.
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PMID:Preparation and purification of Flavobacterium heparinum chondroitinases AC and B by hydrophobic interaction chromatography. 1041 65

Low-molecular-weight heparins (LMWH) represent depolymerized porcine mucosal heparin derivatives, which are commonly used for the management of thrombotic disorders. Because of their widespread usage, the supplies of the raw material namely unfractionated heparin are nearly exhausted. Porcine mucosal tissue is almost exclusively used for the preparation of these agents. Thus, there is a timely need for the production of heparin like drugs from other sources. Fermentation techniques have been used to produce carbohydrates such as dextran and innulin for therapeutic purposes. Bacterial cell wall polysaccharide mimics the linear hexose units, which constitute heparin. Utilizing Escherichia coli cell membranes produced by fermentation technology, chemical sulfation and enzymatic epimerization, sulfaminoheparosan type of polymer mimicking the structure of heparin has been produced. These semi-synthetic sulfaminoheparosans exhibit biologic actions comparable to that observed with heparin. The sulfaminoheparosan core can also be degraded to obtain low-molecular-weight (LMW) derivatives mimicking LMWHs. Using this technique, a novel LMW sulfaminoheparosan derivative (Q93C/239) was produced by Inalco, Milan, Italy. To compare this heparin analogue, a LMWH, namely tinzaparin, was used to determine the relative anticoagulant, antiprotease, and molecular profile. Additional studies were carried out to determine the susceptibility of this agent to heparinase-I. These comparative studies exhibited both antiprotease and anticoagulant properties similar to those of tinzaparin. However LMW sulfaminoheparosan resisted heparinase-I digestion at low heparinase-I concentrations. These studies demonstrate that the sulfaminoheparosan derived LMW components exhibit similar molecular and anticoagulant profile as tinzaparin and warrant additional preclinical and clinical development to determine their potential usefulness as antithrombotic agents.
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PMID:Molecular and pharmacologic profile of tinzaparin and a comparable low-molecular-weight bacterial sulfaminoheparosan. 1497 2

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