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)

A 77-kDa complex of thrombin and a protein secreted by activated platelets had little if any thrombin amidolytic activity, indicating that the secreted protein is an inhibitor. The molecular weight of the inhibitor before reaction with thrombin was approximately 50,000. The apparent second-order rate constant for complex formation was estimated to be 1.3 x 10(6) M-1 s-1 (mean of four measurements); it was not affected by heparin or heparinase. These properties distinguish this inhibitor from other protease inhibitors secreted by platelets. The inhibitor reacted with trypsin and possibly with urokinase but not with factor Xa.
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PMID:Characteristics of a thrombin inhibitor secreted by activated platelets. 210 89

Lipoprotein lipase (LPL) hydrolyzes triglyceride in plasma lipoprotein primarily while bound to vascular endothelial cells. LPL metabolism by cultured endothelial cells was studied. Purified radioiodinated bovine LPL bound to porcine aortic endothelial cells at 4 degrees C with an association constant of 0.18 x 10(7) m-1. Analysis of the time course of LPL dissociation from endothelial cells at 4 degrees C yielded a dissociation rate constant of 3.9 x 10(-6)s-1. After 1 h at 37 degrees C, 28% of the LPL initially bound to the cell surface was no longer releasable by heparin or trypsin treatments, suggesting that LPL was internalized by the cells. Addition of heparin to the medium or pretreatment of the cells with heparinase markedly reduced the amount of LPL internalized, establishing a requirement for cell surface heparan sulfate proteoglycans in the process. When cells containing internalized LPL were incubated at 37 degrees C, a time-dependent increase in the amount of LPL in the medium and a corresponding decrease in LPL associated with the cells was found. This suggested that internalized LPL was released back into the medium. The catalytic activity, molecular size, and heparin-binding characteristics of the released LPL was similar to native LPL. Addition of either heparin, heparinase, or excess unlabeled LPL to prevent the rebinding of released 125I-LPL to the cell surface increased the amount of 125I-LPL present in the medium, suggesting that there is a process of recycling of 125I-LPL bound to the cell surface. Studies examining the effect of pH on dissociation of LPL from its binding site showed less dissociation of cell surface bound LPL at pH 5.5 compared with pH 7.4 and 8.5. These results suggest that even at acidic pH as in endocytotic vesicles, LPL remains bound to proteoglycans and this may facilitate the recycling of internalized LPL molecules.
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PMID:Metabolism of endothelial cell-bound lipoprotein lipase. Evidence for heparan sulfate proteoglycan-mediated internalization and recycling. 214 41

This paper reports an unrecognized aspect of phosphotungstic acid staining at low pH. It provides an on-section staining method in which sialic acid-containing molecules can be demonstrated in the laminae rarae of the rat glomerular basement membrane. The staining in the basement membrane became negative after perfusion with the following cations: protamine sulphate, hexadimethrine, Alcian Blue, Ruthenium Red and Toluidine Blue. Blocking was not achieved with Alcian Blue at about pH 1. The staining was also abolished after mild methylation and demethylation restored the contrast. This is suggestive of the involvement of carboxyl groups. Prior digestion with pronase, trypsin and neuraminidase rendered the laminae rarae negative, whereas hyaluronidase, chondroitinase ABC and crude heparinase were without effect. This indicates that sialic acid groups are detected by this method and that heparan sulphate does not interfere. The staining of the epithelial plasma membrane, also carrying sialic acid groups, remained positive after neuraminidase treatment. It is presumed that this method can be applied successfully for detecting changes in the sialic acid content of the laminae rarae in rat glomerular basement membranes under normal and pathological conditions.
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PMID:Demonstration of sialic acid groups in the glomerular basement membrane of the rat with phosphotungstic acid at low pH. 241 Mar 95

Pro-inflammatory effects of cationic proteins secreted by human granulocytes include induction of increased vascular permeability and oedema, which are likely to be mediated by damage to vascular endothelium. We have shown previously that a series of synthetic polycationic amino acids produce a dose-, time- and Mr-dependent inhibition of [3H]leucine or [3H]thymidine incorporation into macromolecules by human umbilical vein endothelial cells, and that the extent of inhibition was correlated with changes in cell morphology, with release of cytoplasmic constituents and was irreversible. The experiments reported here characterise further the requirements for the induction of cytotoxicity by polycations. We have found that the extent of inhibition is related to both the identity of the monomer, for polymers of Mr 40,000 the order is ornithine greater than lysine greater than arginine, and to its configuration; poly-D-lysines are more potent inhibitors than poly-L-lysines of similar Mr. Only brief exposure to the agonist is required, 90% inhibition occurred after 10 min of exposure to poly-L-lysine (Mr 90,000). Treatment of endothelial cells with neuraminidase, heparinase, hyaluronidase, chondroitinase or trypsin did not reduce their susceptibility to polylysine. Inhibition of microtubule or microfilament formation also had no effect on polylysine cytotoxicity, indicating that internalisation of the polymer was not a prerequisite for the effect. Inhibition of protein synthesis or pretreatment with simple sugars likewise failed to block the effects of polylysine treatment. Natural cationic proteins exerted similar effects on endothelial cells, the extent of the effect apparently being related to the pI of the protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biochemical characterisation of polycation-induced cytotoxicity to human vascular endothelial cells. 263 82

Platelets secrete a low-molecular-weight protein, platelet factor four (PF-4), which binds to and neutralizes heparin and related sulfated glycosaminoglycans (GAGs). To examine the interactions of PF-4 with the GAGs present on endothelial cell surfaces, we incubated 125I-PF-4 with cell suspensions derived from confluent monolayers of cultured bovine aortic endothelium. Binding of 125I-PF-4 was inhibited by a 100-fold excess of nonradioactive PF-4 and varied with duration and temperature of incubation. At 4 degrees C, binding reached equilibrium at 20 minutes with kd = 2.87 mumol/L and Bmax of 63.83 pmol/10(5) cells. Binding capacity was reduced 83.4% by brief incubation of endothelial cells with trypsin and 46.67% by incubation with Flavobacterium heparinase, but was unchanged by chondroitin-ABCase treatment. At 37 degrees C, PF-4 was internalized by confluent monolayer of bovine aortic endothelial cells primarily through low-affinity adsorptive endocytosis. The internalized PF-4 was degraded to amino acids and small peptides with 50% conversion after 18-hour incubation. These studies demonstrate that a secreted platelet protein can bind to and enter endothelial cells. Binding may explain the rapid clearance of released PF-4 from plasma and could have important local effects on endothelial structure and function.
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PMID:Interaction of platelet factor four with cultured vascular endothelial cells. 271 92

The chemical nature of anionic sites located on both fronts of the endothelial cells (ECs) and in the basement membrane (BM) of mouse brain capillaries was studied using tissue sections embedded in Lowicryl K4M and cationic colloidal gold. Before labelling with cationic probe, the sections were digested with the following enzymes: trypsin, papain, pronase E, proteinase K, collagenase, chondroitinase ABC, hyaluronidase, heparinase, heparitinase, neuraminidase and endoglycosidase H. The results indicate that the negatively charged surface layer on the luminal front differs in chemical nature from that on the abluminal front of the EC. Anionic sites located on the luminal surface of the plasmalemma of the ECs are mainly contributed by sialic acid residues of acidic glycoproteins. On the contrary, the anionic domains on the abluminal front of the EC represent mixed proteoglycan and acid glycopeptides containing hydrophobic amino acids, sialic acid residues, and are rich in heparan sulphate-bearing glycosaminoglycans. The anionic sites of the BM are contributed in a substantial degree by chondroitin and heparan sulphate-rich glycosaminoglycans. The effect of endoglycosidase H suggests that glycopeptides containing oligomannosyl residues linked to N-acetylglucosamine contribute in small degree in maintenance of the negative charge in the BM, but not on the surfaces of the EC. These results show that brain endothelium bears surface anionic domains differing chemically from those described for some fenestrated and continuous endothelia. The distribution of anionic sites indicates that the discrimination against various negatively charged molecules takes place on both fronts of the ECs as well as in the BM of brain micro-blood vessels. The exact role of these domains in the function of the blood-brain barrier remains to be established.
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PMID:Ultracytochemical characterization of anionic sites in the wall of brain capillaries. 274 7

The effects of several neurohumoral agents and serine proteases on glycoconjugate release from hamster tracheal organ cultures were assessed. The beta-adrenergic agonist isoproterenol inhibited glycoconjugate release, and its effect was abolished by the specific beta-blocking agent propranolol. A cholinergic agonist, pilocarpine, marginally increased glycoconjugate release, and its effect was abolished by the antagonist atropine. Human neutrophil elastase and porcine pancreatic trypsin consistently increased glycoconjugate release by 1.8 to 2.8-fold. When the proteases were inactivated, they were no longer effective in stimulating glycoconjugate release. Histologic and electron microscopic analysis of the protease-treated organ cultures revealed no discernible toxic reaction. In addition, organ cultures prelabeled with chromium 51 did not release an increased amount of radioactivity when treated with the proteases. Biochemical analysis of the glycoconjugates released into the culture medium showed them to be of high molecular weight (90% eluted in the void volume of a Sepharose 6B column) and to be resistant to digestion with hyaluronidase and heparinase, properties consistent with mucous glycoproteins. The mechanism of protease-induced glycoconjugate release is unknown. We speculate that stimulation of airway secretory cells by serine proteases of neutrophilic or other inflammatory cell origin may play a role in the increased airway secretion that is characteristic of acute tracheobronchitis.
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PMID:Serine proteases stimulate mucous glycoprotein release from hamster tracheal ring organ culture. 287 41

Exposure of synaptosomes isolated from the electric organ of Torpedo marmorata to conditions that promote the release of acetylcholine does not cause the co-release of a vesicle specific proteoglycan. Proteoglycan within synaptosomes is quite stable during various incubation conditions as measured by immune dot blotting. Isolated vesicles from Torpedo also retain their proteoglycan immunoreactivity when exposed to a variety of incubation conditions. Lysis of vesicles in H2O, treatment with pH 11.5 buffer, or exposure to high ionic strength (2 M KCl) results in the loss of acetylcholine or ATP while the proteoglycan is retained by vesicle membranes. Only treatment with Nonidet P-40 releases proteoglycan from vesicles or synaptosomes and free proteoglycan immunoreactivity is then susceptible to degradation by trypsin or heparinase. These results suggest that the proteoglycan is an integral component of vesicle membranes and is at least in the synaptosomal preparation not subject to extensive co-release with acetylcholine or ATP.
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PMID:Cholinergic vesicle specific proteoglycan: stability in isolated vesicles and in synaptosomes during induced transmitter release. 312 84

An inhibitory component that diminishes estrogen receptor (ER) binding to nuclei in vitro is present in cytosol prepared from calf uterus. The inhibitor is heat stable and resistant to enzymatic treatment with trypsin, chymotrypsin, proteinase K, deoxyribonuclease I, or ribonucleases A, T1, and U2. Results of chromatography on DEAE-cellulose and Sephadex G-150 indicate that the factor is a negatively charged macromolecule. Inhibitory activity is sensitive to sequential digestion with chondroitinase ABC, hyaluronidase, and heparinase. Approximately 70% of the inhibitory activity is destroyed by treatment with heparinase alone. Heparitinase destroys only 30% of this activity. Furthermore, the addition of pure hyaluronic acid or chondroitin sulfate to the ER-nuclei binding assay results in little inhibition, whereas addition of heparin inhibits 75% of receptor binding. Overall, these results indicate that glycosaminoglycans, present in bovine uterine cytosol, are capable of inhibiting ER-nuclei interactions. The most potent inhibitory glycosaminoglycan displays heparin-like characteristics.
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PMID:Characterization of a cytosolic inhibitor of calf estrogen receptor binding to nuclei. 330 79

Previous work has demonstrated that aortic endothelial cells (EC) produce a heparin-like inhibitor of smooth muscle cell (SMC) growth when both cell types were cultured on plastic. We have now tested the influence of the extracellular matrix on this EC-SMC interaction. Specifically, we examined: 1) the role of different substrates (plastic, fibronectin, monomeric, and fibrillar collagens I and III, and EC-derived matrices) on the growth rate and population density of SMC; 2) the heparin-sensitivity of SMC on these diverse substrates; and 3) the effect of these same substrates on EC ability to secrete heparin-like and polypeptide inhibitors of SMC growth. SMC demonstrated a sixfold difference in sensitivity to heparin when grown on different substrates, with the following rank order: EGTA matrix greater than collagens = plastic = fibronectin greater than deoxycholic acid (DOC) matrix. Maximally, we found a 10-fold difference in the potency of the inhibitory activity secreted by EC grown on different substrates, with the following order: plastic = EGTA matrix greater than fibronectin greater than collagens = DOC matrix. Treatment of the conditioned mediums with heparinase and trypsin indicated that 58% to 76% of the inhibitory activity was due to heparin-like species, and 24% to 42% was due to protein(s). When EC cultured on EGTA matrix are compared to those pleated on DOC matrix, the potency of the heparin-like and peptide inhibitory activities increased 8- and 17-fold, respectively. Hypothetically, one would predict a 60-fold change in the potency of the antiproliferative effect if the contributions of substrate to EC production of inhibitors and SMC sensitivity were additive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of vascular smooth muscle cell growth by endothelial-synthesized extracellular matrices. 367 5


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