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)

We have demonstrated by affinity chromatography that hepatocyte growth factor (HGF) binds strongly to heparan sulfate (HS). This substantiates previous suggestions that cell-surface heparan sulfate proteoglycans constitute the so-called low affinity cellular binding sites for HGF. Using a recombinant human HGF affinity column, we have analyzed the effects of various specific chemical and enzymatic modifications/depolymerizations of HS on its affinity in order to elucidate the polysaccharide structural determinants. Interaction is shown to be only slightly affected by digestion with heparinase I or III or by replacement of N-sulfates with N-acetyl groups. This suggests a specific role for sulfated domains containing nonsulfated IdceA residues, with only a small contribution from N-sulfates and IdceA(2-OSO3) residues. In addition, disaccharide analyses of various HGF-binding oligosaccharides indicate that affinity is more closely associated with 6-O-sulfation of GlcNSO3 residues than with sulfation at any other position. Although interaction can be demonstrated with heparinase III-resistant oligosaccharides as small as hexasaccharides, the highest affinity was found with oligosaccharides containing a minimum of 10-12 monosaccharides. The structural specificity of the HGF-HS interaction is thus shown to be radically different from that previously described for the basic fibroblast growth factor-HS interaction.
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PMID:Interaction of hepatocyte growth factor with heparan sulfate. Elucidation of the major heparan sulfate structural determinants. 815 51

We have previously reported the evidence for presence of a humoral factor 'injurin', which induces expression of the hepatocyte growth factor (HGF) gene in MRC-5 human embryonic lung fibroblasts. We have now purified a factor from porcine liver which stimulates HGF production but differs from injurin. When injurin activity was measured as a stimulatory effect on HGF production by MRC-5 cells, this activity was found in various acid extracts from porcine tissues, including liver, kidney, brain, and lung, and acid extracts from the liver was used for purification. When the acid extract was applied to Q-Sepharose anion-exchange chromatography, 50-60% of the total injurin activity was absorbed to the column and the remaining activity was detected in the flow through fractions. Injurin activity was eluted from the Q-Sepharose column by NaCl concentration gradient with four peaks at 0.5-0.6 M, 0.7-0.8 M, 0.9-1.2 M. 1.5-2.0 M NaCl, thereby suggesting that the factor exists in heterogenous or various forms in tissues. The major active fractions were combined and applied to Mono-Q FPLC anion-exchange chromatography. Injurin activity eluted with a single peak at 0.9-1.5 M NaCl and this activity was 4286 fold purified from the starting extract. Addition of this fraction to MRC-5 cells increased the amount of HGF pulse-labeled with [35S]methionine to a 3-4-fold higher level than that seen in control cells, whereas it had no significant effect on HGF mRNA levels. Therefore, this factor seems to stimulate HGF synthesis affecting translational processes and is distinct from the previously characterized injurin which stimulates HGF gene expression. Chemical treatments and SDS-polyacrylamide gel electrophoresis of this injurin-like factor indicated that injurin-like factor is a acid- and heat-stable non-proteinous factor with an apparent M(r) of 8-15 kDa. Since the injurin activity of the factor was decreased by heparinase treatment, the factor may be a polysulfated glycosaminoglycan related to heparin or to heparan sulfate. These results suggest that HGF production may be regulated by this non-proteinous injurin-like factor and that this factor may also play an important role in the regeneration of organs, through translationally enhancing HGF production.
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PMID:Partial purification and characterization of 'injurin-like' factor which stimulates production of hepatocyte growth factor. 830 2

Hepatocyte growth factor (HGF) purified from human placenta was specifically bound to a component in ECM secreted from lung fibroblasts, hepatocytes, and nonparenchymal liver cells. HGF was also bound to a component in basement membrane matrigel. The rate of DNA synthesis in hepatocytes cultured on the HGF-bound ECM was 4-7 times that of control hepatocytes. When ECM-coated dishes were pretreated with heparinase and heparitinase prior to binding of HGF, the stimulation decreased remarkably. A considerable decrease in the stimulation was observed following the washing of HGF-bound ECM with 1 M NaCl. We propose, based on these observations, that HGF bound to the ECM component present in Disse's space functions in regeneration following hepatic injury.
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PMID:Stimulation of DNA synthesis in hepatocytes by hepatocyte growth factor bound to extracellular matrix. 846 99

Hepatocyte growth factor (HGF) promotes the growth not only of hepatocytes but also of several other types of cells such as cytotrophoblasts and endothelial cells. Recent studies have revealed that HGF is trapped in the extracellular (ECM) matrix through heparan sulphate in vivo, thereby acting as a mitogen for hepatocytes in cooperation with heparan sulphate. In this study, we detected HGF protein in chorionic tissue and placental tissue extracts, and found that HGF and heparan sulphate were co-distributed in the endothelial basement membrane and trophoblast basement membrane on immunohistochemical examination. The rates of DNA synthesis in primary cultured cytotrophoblasts and human umbilical vein endothelial cells (HUVEC) cultured on HGF-bound Matrigeltrade mark were 6-8 times those of control cytotrophoblasts and HUVEC. When Matrigeltrade mark dishes were pretreated with heparinase and heparitinase prior to binding of HGF, stimulation of DNA synthesis was markedly decreased. A considerable decrease in stimulation of DNA synthesis was observed following washing of HGF-bound Matrigeltrade mark with 1 m acetic acid, 1 m NaCl and 0.1 per cent trypsin, but not following treatment with chondroitinase ABC. These observations suggest that HGF can be trapped in ECM in vivo, thereby acting as a mitogen for cytotrophoblasts and placental vein endothelial cells in cooperation with heparan sulphate.
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PMID:Stimulation of DNA synthesis in trophoblasts and human umbilical vein endothelial cells by hepatocyte growth factor bound to extracellular matrix. 1052 23

Amino acid exchanges in the virus capsid protein VP1 allow the coxsackievirus B3 variant PD (CVB3 PD) to replicate in decay accelerating factor (DAF)-negative and coxsackievirus-adenovirus receptor (CAR)-negative cells. This suggests that molecules other than DAF and CAR are involved in attachment of this CVB3 variant to cell surfaces. The observation that productive infection associated with cytopathic effect occurred in Chinese hamster ovary (CHO-K1) cells, whereas heparinase-treated CHO-K1 cells, glucosaminoglycan-negative pgsA-745, heparan sulfate (HS)-negative pgsD-677, and pgsE-606 cells with significantly reduced N-sulfate expression resist CVB3 PD infection, indicates a critical role of highly sulfated HS. 2-O-sulfate-lacking pgsF-17 cells represented the cell line with minimum HS modifications susceptible for CVB3 PD. Inhibition of virus replication in CHO-K1 cells by polycationic compounds, pentosan polysulfate, lung heparin, and several intestinal but not kidney HS supported the hypothesis that CVB3 PD uses specific modified HS for entry. In addition, recombinant human hepatocyte growth factor blocked CVB3 PD infection. However, CAR also mediates CVB3 PD infection, because this CVB3 variant replicates in HS-lacking but CAR-bearing Raji cells, infection could be prevented by pretreatment of cells with CAR antibody, and HS-negative pgsD-677 cells transfected with CAR became susceptible for CVB3 PD. These results demonstrate that the amino acid substitutions in the viral capsid protein VP1 enable CVB3 PD to use specific modified HS as an entry receptor in addition to CAR.
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PMID:Heparan sulfates and coxsackievirus-adenovirus receptor: each one mediates coxsackievirus B3 PD infection. 1294 17

We previously reported that heparin post-transcriptionally stimulates the production of hepatocyte growth factor (HGF). In this study, we addressed the size-dependency of heparin fragments on the HGF-inducing activity aiming to obtain fragments without antiblood coagulant activity. Heparin fragments, produced by digestion with heparinase, were size-fractionated and tested for HGF-inducing activity in cultured human fibroblasts. The HGF-inducing activity deceased with the reduction in oligosaccharide size. Decasaccharides exerted an activity comparable with undigested heparin, while smaller oligosaccharides showed lesser activities. The anticoagulant activity of heparin fragments also decreased with size and anticoagulant activity of decasaccharides was <13% that of undigested heparin. Further fractionation of decasaccharides by anion-exchange chromatography revealed that most of the decasaccharides had HGF-inducing activity and the extent of sulfation was roughly related to the activity. The lack of N-sulfation in heparin markedly reduced HGF-inducing activity, whereas 2-O-desulfation or 6-O-desulation had a lesser influence. Moreover, an N-sulfated disaccharide showed significant HGF-inducing activity, suggesting the involvement of N-sulfation in HGF-inducing activity. Because of the much reduced anticoagulant activity, potential applications of heparin-derived oligosaccharides such as decasaccharides is considerable as a therapeutic agent for many diseases.
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PMID:Stimulation of hepatocyte growth factor production by heparin-derived oligosaccharides. 1731 86

The rare N-unsubstituted glucosamine (GlcNH (3)(+)) residues in heparan sulfate (HS) have important biological and pathophysiological roles. However, it is difficult to prepare naturally-occuring, GlcNH(3)(+)-containing oligosaccharides from HS because of their low abundance, as well as the inherent problems in both excising and identifying them. Therefore, the ability to chemically generate a series of structurally-defined oligosaccharides containing GlcNH(3)(+) residues would greatly contribute to investigating their natural role in HS. In this study, a series of heparin/HS oligosaccharides, from dp6 up to dp16 in length that possess internal GlcNH(3)(+) residues were prepared by a combination of chemical modification and heparinase I digestion. Purification and structural analysis of the major species derived from the octa- to dodeca-saccharide size fractions indicated the introduction of between 1 and 3 internal GlcNH(3)(+) residues per oligosaccharide. In addition, a GlcNH(3)(+) residue was selectively introduced into an internal position in a tetrasaccharide species by direct chemical modification. This selectivity has potential as an alternative procedure for preparing internally-modified oligosaccharides of various lengths. The utility of such oligosaccharides was demonstrated by a comparison of the binding of three different tetrasaccharide species containing 0, 1 and 2 free amino groups to the NK1 truncated variant of hepatocyte growth factor/scatter factor.
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PMID:Preparation of heparin/heparan sulfate oligosaccharides with internal N-unsubstituted glucosamine residues for functional studies. 2194 50

The heparan sulfate proteoglycan syndecan-1 is proteolytically shed from the surface of multiple myeloma cells and is abundant in the bone marrow microenvironment where it promotes tumor growth, angiogenesis, and metastasis. In this study, we demonstrate for the first time that shed syndecan-1 present in the medium conditioned by tumor cells is taken up by bone marrow-derived stromal cells and transported to the nucleus. Translocation of shed syndecan-1 (sSDC1) to the nucleus was blocked by addition of exogenous heparin or heparan sulfate, pretreatment of conditioned medium with heparinase III, or growth of cells in sodium chlorate, indicating that sulfated heparan sulfate chains are required for nuclear translocation. Interestingly, cargo bound to sSDC1 heparan sulfate chains (i.e. hepatocyte growth factor) was transported to the nucleus along with sSDC1, and removal of heparan sulfate-bound cargo from sSDC1 abolished its translocation to the nucleus. Once in the nucleus, sSDC1 binds to the histone acetyltransferase enzyme p300, and histone acetyltransferase activity and histone acetylation are diminished. These findings reveal a novel function for shed syndecan-1 in mediating tumor-host cross-talk by shuttling growth factors to the nucleus and by altering histone acetylation in host cells. In addition, this work has broad implications beyond myeloma because shed syndecan-1 is present in high levels in many tumor types as well as in other disease states.
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PMID:Shed syndecan-1 translocates to the nucleus of cells delivering growth factors and inhibiting histone acetylation: a novel mechanism of tumor-host cross-talk. 2540 32