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)

Proteoglycans have been isolated from a high speed supernatant fraction of a mouse mastocytoma by procedures which should minimize alteration of the native protein-polysaccharide molecule. The methods used include in vivo labeling proteoglycans with 35S-sulfate, 3H-leucine and 3H-lysine, centrifugation of the tumor homogenate at 105,000 g, cetylpyridinium fractionation of the supernatant, and further purification of some of the fractions obtained by DEAE-cellulose column chromatography, gel filtration on Sepharose 4B and cellulose acetate electrophoresis. Two major sulfated proteoglycans were obtained, one containing keratan sulfate-like material (KSP-S), the other a heparin-like polymer (HP-S). The presence in HP-S of a compound similar to heparin was confirmed by its digestibility with flavobacterium heparinase. HP-S contained about 4 per cent protein. Glycine was the predominant amino acid, and serine did not appear to be involved in the peptide-carbohydrate linkage. The proteoglycan present in HP-S appeared to be homogeneous when examined using cellulose acetate electrophoresis. KSP-S was found to contain sialic acid and its protein content was significantly higher than that of HP-S. Glutamic and aspartic acids were the most abundant amino acids in KSP-S.
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PMID:Proteoglycans of soluble fraction of mouse mastocytoma. 12 69

Proliferation of smooth muscle cells is an important component of pulmonary arterial morphogenesis, both during normal development and pathologic remodeling. However, little is known of the factors that regulate smooth muscle proliferation in these vessels. To investigate the hypothesis that factors produced by endothelial cells may regulate smooth muscle cell growth, we studied the effects of culture medium conditioned by fetal bovine pulmonary arterial endothelium on proliferation of smooth muscle cells in culture. This conditioned medium contains an inhibitor of smooth muscle proliferation that is degraded by nitrous acid, heparinase, and heparitinase, but resists degradation by protease, boiling, and chondroitin ABC lyase, indicating that the inhibitor is structurally similar to heparin. Inhibitor release occurs in both growing and confluent endothelial cell cultures and in the presence and absence of serum. A growth-inhibiting proteoglycan purified to homogeneity from endothelial cell-conditioned medium has physicochemical characteristics similar to those of the prototypic basement membrane heparan sulfate proteoglycan of the Englebreth-Holm-Swarm tumor: an overall size of approximately 10(6) D, heparan sulfate chains of 60,000 D, and a buoyant density of 1.33 g/ml. Antibody raised against the tumor basement proteoglycan recognizes this endothelial heparan sulfate proteoglycan, and Western blotting after SDS-PAGE demonstrates that the core proteins of both proteoglycans migrate as a doublet at apparent molecular weights of 450,000 and 360,000 D. Heparan sulfate glycosaminoglycan prepared from purified medium proteoglycan is a potent inhibitor of smooth muscle cell growth, exhibiting activity approximately 1,000 times greater than that of heparin. These results indicate that endothelial cells cultured from fetal bovine pulmonary arteries produce a basement membrane heparan sulfate proteoglycan that is a potent inhibitor of smooth muscle proliferation. This proteoglycan may mediate endothelial regulation of smooth muscle growth during development or pathologic pulmonary arterial remodeling.
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PMID:Endothelial heparan sulfate proteoglycan. I. Inhibitory effects on smooth muscle cell proliferation. 213 6

A 73-year-old woman with metastatic transitional cell carcinoma of the bladder developed vaginal bleeding a few days after undergoing radical cystectomy. She had no other signs of mucocutaneous bleeding. Coagulation studies revealed a markedly prolonged thrombin time (greater than 600 seconds), a slightly prolonged reptilase time (20 seconds), and mildly elevated fibrinogen (4.39 g/L), and fibrin D-dimer (200 to 500 ng/mL) levels. Treatment of the patient's plasma in vitro with protamine or barium sulfate normalized the thrombin time. The anticoagulant activity corresponded to 0.15 heparin U/mL when measured by a thrombin time assay using normal plasma as substrate and standardized with porcine heparin. The anticoagulant was quantitatively bound to and subsequently eluted with 1 mol/L NaCl from quaternary aminoethyl (QAE) Sephadex, and then isolated by affinity chromatography on immobilized antithrombin III. The isolated anticoagulant was shown to be sensitive to heparinase digestion. Therefore, the inhibitor has functional and chemical properties similar to those of high-affinity heparin. Thus far, this is the only anticoagulant of this type isolated from the plasma of a patient bearing a tumor other than plasma cell myeloma.
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PMID:Isolation of a heparin-like anticoagulant from the plasma of a patient with metastatic bladder carcinoma. 275 13

Twenty seven bladder tumors, three ureteral tumors and one renal pelvic tumor were studied by means of light microscopic histochemical methods for demonstration and identification of acid mucopolysaccharides. Alcian blue (pH 1.0), alcian blue (pH 2.5), periodic acid-Schiff (PAS) and aldehyde-fuchusin stainings were performed. These stainings showed that all tumor specimens contained acid mucopolysaccharides. For identifying individual acid mucopolysaccharides, enzyme digestion procedures were performed prior to staining with alcian blue. (streptomyces hyaluronidase, testicular hyaluronidase, chondroitinase ABC, chondroitinase AC, keratanase, heparinase, heparitinase.) According to these experiments, high-grade, and high-stage tumors contained large amounts of sulfated mucopolysaccharides. Squamous cell carcinomas of the bladder contained especially large amounts of chondroitin sulfate AC.
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PMID:[Histochemical studies of bladder tumors]. 294 17

The binding of iodinated basic fibroblast growth factor (bFGF) to low-density heparan sulfate proteoglycan purified from the Engelbreth Holm Swarm (EHS) sarcoma was investigated using different techniques. The tumor clearly contained bFGF, the level being comparable to that found in other tissues such as human or bovine brain. 125I bFGF strongly bound to the basement membrane-like matrix of EHS frozen sections as revealed by autoradiography. Iodinated bFGF bound to purified heparan sulfate proteoglycan but not to laminin or collagen type IV, three components isolated from the same tumor. In contrast, acidic fibroblast growth factor (aFGF) displayed negligible binding to heparan sulfate proteoglycan. Binding of bFGF to frozen sections and to purified proteoglycan could be strongly inhibited by heparin and was displaced by an excess of unlabeled factor and completely suppressed after heparitinase and heparinase treatments. Binding was a function of the salt concentration and was abolished at 0.6 M NaCl. Scatchard analysis indicated the affinity site had a Kd of about 30 nM, a value 10-15 higher than that recently reported by Moscatelli (J. Cell. Physiol., 131:123-130, 1987) in the case of the low-affinity binding sites present on the surface of baby hamster kidney (BHK) cells.
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PMID:Specific binding of basic fibroblast growth factor to basement membrane-like structures and to purified heparan sulfate proteoglycan of the EHS tumor. 297 66

The ascitic form of a chemically-induced pancreatic ductal adenocarcinoma in the Syrian golden hamster was very bloody and indistinguishable from blood macroscopically. Unlike blood, the bloody fluid remained unclotted at room temperature. To explore the possibility of presence of anticoagulants, we mixed 40% cell-free fluid with 60% normal human plasma and tested the clottability of the mixture with standard techniques. Plasma containing the fluid showed markedly prolonged activated partial thromboplastin time (APTT), thrombin time (TT) and recalcification time (RCT), and normal prothrombin time (PT) and reptilase time (RT). Comparing the prolongation of APTT of samples containing the fluid to those containing a commercial heparin, the fluid contained an anticoagulant activity equivalent to 0.436 +/- 0.03 unit heparin per ml (mean +/- SEM, n = 14). In addition to prolonging the APTT, TT and RCT, the fluid also inhibited the clotting and amidolytic activities of thrombin. "Heparsorb" had nearly completely neutralized the anticoagulant activity in fluid samples, while protamine sulfate was only partially effective. Incubation of fluid with pronase or phospholipase did not affect its anticoagulant activity; incubation with heparinase had only a minimal effect. Electrophoresis of an alkali digested fluid on cellulose acetate revealed the presence of heparan sulfate. The native ascitic fluid also contained other hemostatic components including platelets, fibrinogen and antithrombin III, but their concentrations were much lower than in blood. Apparently, heparan sulfate in the neoplastic effusion is largely responsible for the bloody ascites tumor remaining unclotted.
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PMID:Anticoagulant activity in cell-free peritoneal fluid of an experimental pancreatic ascites tumor. 300 55

We have previously shown that angiogenesis inhibition and tumor regression can be accomplished by combinations of heparin or heparin fragments with cortisone [Folkman, J., Langer, R., Linhardt, R. J., Haudenschild, C. & Taylor, S. (1983) Science 221, 719-725]. Oral heparin was also effective in combination with cortisone. We now show that a single oral dose of [35S]heparin or [3H]heparin (15,000 units/kg) results in continuous release of radioactive material into the bloodstream for at least 12 hr. This is associated with the presence of anti-factor Xa activity at a level of approximately equal to 0.1 unit/ml. The radioactive material is identified as oligo-, di-, and monosaccharides by its behavior in chromatographic systems, its possession of anti-factor Xa activity, and the effect of treatment with bacterial heparinase. The heparin fragments are extensively metabolized to fragments without anti-factor Xa activity that are readily subject to urinary excretion.
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PMID:Oral heparin results in the appearance of heparin fragments in the plasma of rats. 345 56

Neovascularization is associated with the regulation of tissue development, wound healing, and tumor metastasis. A number of studies have focused on the role of heparin-like molecules in neovascularization; however, little is known about the role of heparin-degrading enzymes in neovascularization. We report here that the heparin-degrading enzymes, heparinases I and III, but not heparinase II, inhibited both neovascularization in vivo and proliferation of capillary endothelial cells mediated by basic fibroblast growth factor in vitro. We suggest that the role of heparinases in inhibition of neovascularization is through depletion of heparan sulfate receptors that are critical for growth factor-mediated endothelial cell proliferation and hence neovascularization. The differences in the effects of the three heparinases on neovascularization could be due to different substrate specificities for the enzymes, influencing the availability of specific heparin fragments that modulate heparin-binding cytokines involved in angiogenesis.
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PMID:Heparinase inhibits neovascularization. 750 76

Human angiogenin is an excellent substrate for the adhesion of HT-29 human colon adenocarcinoma cells. These cells adhere more quickly to human angiogenin than to fibronectin, laminin, collagen I, and collagen IV. Anti-angiogenin antibodies and the angiogenesis inhibitors platelet factor-4 and placental ribonuclease inhibitor prevent adhesion of HT-29 cells to angiogenin. Calcium and magnesium ions are not required for adhesion and Arg-Gly-Asp-Ser has no effect, indicating that the interaction is integrin-independent. Instead, adhesion seems to involve a heparan/chondroitin sulfate proteoglycan. Treatment of the cells with heparinase or heparitinase decreases HT-29 cell adhesion onto angiogenin but not onto collagen I. Moreover, cell adhesion is decreased by the presence of heparin or chondroitin sulfates and by preincubation of the cells with inhibitors of proteoglycan synthesis or secretion. In addition, angiogenin binds tightly to heparin-Sepharose, requiring 0.78 M NaCl for elution. Angiogenin-affinity chromatography of a 35S-, 3H-labeled HT-29 cell fraction enriched in cell-surface proteoglycans yields a single, heparinase-sensitive component of apparent molecular mass > 200 kDa, as detected by autoradiography after SDS-polyacrylamide gel electrophoresis. These results suggest that angiogenin could be an effective substrate for tumor cell adhesion during metastasis and may provide a basis for the design of inhibitors of this process.
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PMID:A cell-surface proteoglycan mediates human adenocarcinoma HT-29 cell adhesion to human angiogenin. 751 Jun 98

Heparinases, enzymes that cleave heparin and heparin sulfate, are implicated in physiological and pathological functions ranging from wound healing to tumor metastasis and are useful in deheparinization therapies. We report the cloning of the heparinase I (EC 4.2.2.7) gene from Flavobacterium heparinum using PCR. Two degenerate oligonucleotides, based on the amino acid sequences derived from tryptic peptides of purified heparinase, were used to generate a 600-bp probe by PCR amplification using Flavobacterium genomic DNA as the template. This probe was used to screen a Flavobacterium genomic DNA library in pUC18. The open reading frame of heparinase I is 1152 bp in length, encoding a precursor protein of 43.8 kDa. Eleven of the tryptic peptides (approximately 35% of the total amino acids) mapped onto the open reading frame. The amino acid sequence reveals a consensus heparin binding domain and a 21-residue leader peptide with a characteristic Ala-(Xaa)-Ala cleavage site. Recombinant heparinase was expressed in Escherichia coli as a soluble protein, using the T7 polymerase pET expression system. The recombinant heparinase cleavage of heparin was identical to that of native heparinase.
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PMID:Cloning and expression of heparinase I gene from Flavobacterium heparinum. 847 14

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