Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human cytomegalovirus (HCMV) is known to down-regulate the expression of human leukocyte antigen (HLA) class I, the process of which involves a subset of virus genes. Infection of human foreskin fibroblast (HFF) cells with UV-inactivated HCMV (UV-HCMV), however, resulted in an increase in HLA class I presentation on the cell surface in the absence of HCMV gene expression. Heparin, which inhibits the interaction of virus particles with cell surface heparan sulfate proteoglycans (HSPGs), blocked the effect of UV-HCMV on HLA class I expression. Pretreatment of cells with heparinase I decreased in a dose-dependent manner the effect of UV-HCMV on HLA class I expression enhancement. Sodium chlorate, which is known to inhibit the sulfation of HSPGs, gave a similar result. Pretreatment of UV-HCMV with trypsin or monoclonal antibody reactive with the envelope glycoprotein gB reduced the increase in HLA class I expression on the HFF cell surface by UV-HCMV. RT-PCR analysis demonstrated that the increase in HLA class I presentation on the HFF cell surface was due to an increase in HLA class I transcription. Thus, binding of HCMV particles to cell surface HSPGs appears to be required for the stimulation of HLA class I expression. It is also possible that virus entry, in addition to binding to HSPGs, may be involved in the stimulation of HLA class I expression, since the UV-HCMV entered the cells and all treatments to block virus binding to HSPGs would necessarily prevent virus entry.
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PMID:Human cytomegalovirus binding to heparan sulfate proteoglycans on the cell surface and/or entry stimulates the expression of human leukocyte antigen class I. 1156 34

The carbohydrates galactosamine and heparin, previously shown to inhibit phlebotomine lectin activity in vitro, were fed to the sandfly Phlebotomus duboscqi Neveu-Lemaire (Diptera: Psychodidae) with blood, and the effects on mortality, fecundity, protease activity and susceptibility to Leishmania major Yakimoff & Schokhor (Kinetoplastida: Trypanosomatidae) were studied. Previous study revealed that galactosamine considerably enhanced the establishment of L. major infection in P. duboscqi and significantly increased parasite loads in late infections. This work demonstrates a similar but less pronounced effect of heparin. Heparin increased infection rates and parasite loads 3 and 9 days post-feeding but did not affect the location of Leishmania promastigotes and their anterior migration. Galactosamine supplement caused pronounced changes in bloodmeal digestion. It abolished the activity of alkaline proteases and trypsin, caused premature defecation of bloodmeal, increased mortality of female sandflies in days 1-4 post-feeding and decreased their fecundity. Heparin had a less pronounced effect on sandfly physiology. It lowered trypsin activity 12 and 72 h post-bloodmeal but did not alter defecation, mortality and oviposition. The data suggest that the enhancing effect of these carbohydrates on Leishmania infections in sandfly midgut could be explained by their interference with midgut proteases. The study supports the hypothesis that proteolytic activities of midgut proteases strongly influence the vector competence of sandflies.
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PMID:Bloodmeal digestion and Leishmania major infections in Phlebotomus duboscqi: effect of carbohydrates inhibiting midgut lectin activity. 1158 45

1. Human mast cell tryptase appears to display considerable variation in activating proteinase-activated receptor 2 (PAR(2)). We found tryptase to be an inefficient activator of wild-type rat-PAR(2) (wt-rPAR(2)) and therefore decided to explore the factors that may influence tryptase activation of PAR(2). 2. Using a 20 mer peptide (P20) corresponding to the cleavage/activation sequence of wt-rPAR(2), tryptase was as efficient as trypsin in releasing the receptor-activating sequence (SLIGRL.). However, in the presence of either human-PAR(2) or wt-r PAR(2) expressing cells, tryptase could only activate PAR(2) by releasing SLIGRL from the P20 peptide, suggesting that PAR(2) expressed on the cells was protected from tryptase activation. 3. Three approaches were employed to test the hypothesis that PAR(2) receptor glycosylation restricts tryptase activation. (a) pretreatment of wt-rPAR(2) expressing cells or human embryonic kidney cells (HEK293) with vibrio cholerae neuraminidase to remove oligosaccharide sialic acid, unmasked tryptase-mediated PAR(2) activation. (b) Inhibiting receptor glycosylation in HEK293 cells with tunicamycin enabled tryptase-mediated PAR(2) activation. (c) Wt-rPAR(2) devoid of the N-terminal glycosylation sequon (PAR(2)T25(-)), but not rPAR(2) devoid of the glycosylation sequon located on extracellular loop-2 (PAR(2)T224A), was selectively and substantially (>30 fold) more sensitive to tryptase compared with the wt-rPAR(2). 4. Immunocytochemistry using antisera that specifically recognized the N-terminal precleavage sequence of PAR(2) demonstrated that tryptase released the precleavage domain from PAR(2)T25(-) but not from wt-rPAR(2). 5. Heparin : tryptase molar ratios of greater than 2 : 1 abrogated tryptase activation of PAR(2)T25(-). 6. Our results indicate that glycosylation of PAR(2) and heparin-inhibition of PAR(2) activation by tryptase could provide novel mechanisms for regulating receptor activation by tryptase and possibly other proteases.
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PMID:Glycosylation and the activation of proteinase-activated receptor 2 (PAR(2)) by human mast cell tryptase. 1160 10

Heparin-deficient mice, generated by gene targeting of N-deacetylase/N-sulfotransferase-2 (NDST-2), display severe mast cell defects, including an absence of stored mast cell proteases. However, the mechanism behind these observations is not clear. Here we show that NDST-2+/+ bone marrow-derived mast cells cultured in the presence of IL-3 synthesise, in addition to highly sulphated chondroitin sulphate (CS), small amounts of equally highly sulphated heparin-like polysaccharide. The corresponding NDST-2-/- cells produced highly sulphated CS only. Carboxypeptidase A (CPA) activity was detected in NDST+/+ cells but was almost absent in the NDST-/- cells, whereas tryptase (mouse mast cell protease 6; mMCP-6) activity and antigen was detected in both cell types. Antigen for the chymase mMCP-5 was detected in NDST-2+/+ cells but not in the heparin-deficient cells. Northern blot analysis revealed mRNA expression of CPA, mMCP-5 and mMCP-6 in both wild-type and NDST-2-/- cells. A approximately 36 kDa CPA band, corresponding to proteolytically processed active CPA, as well as a approximately 50 kDa pro-CPA band was present in NDST-2+/+ cells. The NDST-2-/- mast cells contained similar levels of pro-CPA as the wild-type mast cells, but the approximately 36 kDa band was totally absent. This indicates that the processing of pro-CPA to its active form may require the presence of heparin and provides the first insight into a mechanism by which the absence of heparin may cause disturbed secretory granule organisation in mast cells.
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PMID:Altered storage of proteases in mast cells from mice lacking heparin: a possible role for heparin in carboxypeptidase A processing. 1210 44

Fibroblast Growth Factor-2 (FGF2) is a major inducer of neovascularization (angiogenesis). Heparin activates FGF2 by favoring formation of ternary complexes with its cellular receptors (FGFRs). Controlled 2-O-desulfation followed by exhaustive periodate oxidation/borohydride reduction has been used to generate sulfation gaps within the prevalent heparin sequences, building-up arrays of pentasulfated trisaccharides (PST, consisting of a 2-O-sulfated iduronic acid flanked by two N,6-disulfated glucosamines) spaced by reduced, glycol-split uronic acid (sU) residues. The structure of the prevalent sequences of the novel heparin derivative has been confirmed by mono- and two-dimensional NMR analysis. NMR spin-lattice relaxation times (T2) and nuclear Overhauser effects suggest that the sU residues act as flexible joints between the PST sequences and cause a marked distortion of the chain conformation of heparin required for formation of ternary complexes. Since the splitting reaction also occurs at the level of the essential glucuronic acid residue of the active site for antithrombin, the heparin derivative has no anticoagulant activity. However, it fully retains the FGF2-binding ability of the original heparin, as shown by its capacity to protect FGF2 from trypsin cleavage and to prevent the formation of heparan sulfate proteoglycan (HSPG)/FGF2/FGFR1 ternary complexes. However, when compared to heparin it showed a reduced capacity to induce FGF2 dimerization and to favor the interaction of [125I]FGF2 with FGFR1 in HSPG-deficient, FGFR1-transfected CHO cells. Accordingly, it was more effective than heparin in inhibiting the mitogenic activity exerted by FGF2 in cultured endothelial cells. Finally, it inhibited angiogenesis in a chick embrio chorioallantoic membrane (CAM) assay in which heparin is inactive.
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PMID:Short heparin sequences spaced by glycol-split uronate residues are antagonists of fibroblast growth factor 2 and angiogenesis inhibitors. 1217 39

Heparin has been shown to be involved in the regulation of cellular Ca(2+) by binding to many proteins with high affinity. Here we examined the effects of heparin on the plasma membrane Ca(2+)-ATPase from porcine brain synaptosome. Our results showed that heparin dramatically inhibited the ATP hydrolysis and Ca(2+) uptake in the presence and absence of calmodulin. Together with controlled proteolysis by trypsin, we concluded that the calmodulin-binding domain of the plasma membrane Ca(2+)-ATPase was less important for the heparin inhibition. Excess phosphatidylserine was able to eliminate the heparin inhibition. We observed that Ca(2+) affinity kept no obvious changes, but the ATP affinity of plasma membrane Ca(2+)-ATPase was apparently decreased in the presence of heparin. Our results indicated that heparin had little effects on ATP or Ca(2+) binding sites of the enzyme.
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PMID:Heparin inhibits the reconstituted plasma membrane Ca(2+)-ATPase from porcine brain synaptosome. 1470 83

Bovine pulmonary artery smooth muscle tissue possesses matrix metalloproteinase-2 (72 kDa gelatinase: MMP-2; E.C. 3.4.24.24) as revealed by immunoblot studies of its plasma membrane suspension with polyclonal MMP-2 antibody. In this report, we described the purification and partial characterization of MMP-2 in the plasma membrane fraction of the smooth muscle. MMP-2 has been purified from plasma membrane fraction of bovine pulmonary artery smooth muscle to homogeneity using a combination of purification steps. Heparin sepharose purified preparation of 72 kDa progelatinase is composed of two distinct population of zymogens: a 72 kDa progelatinase tightly complexed with TIMP-2 (an ambient tissue inhibitor of metalloprotease in the smooth muscle plasma membrane), and a native 72 kDa progelatinase free of any detectable TIMP-2. The homogeneity of the native 72 kDa progelatinase form is demonstrated by SDS-PAGE under non-reducing condition, non-denaturing native gel electrophoresis. The purified TIMP-2 free proenzyme electrophoresed as a single band of 72 kDa which could be activated by APMA with the formation of 62 and 45 kDa active species. The proenzyme is activated poorly by trypsin but not by plasmin. The purified 72 kDa progelatinase is stable at aqueous solution and does not spontaneously autoactivate. The purified 72 kDa gelatinase exhibited properties that are typical of MMP-2 obtained from other sources. These are: (i) its activity is dependent on the divalent cation, Ca+2, and is inhibited by EDTA, EGTA and 1:1 0-phenanthroline; (ii) it was inhibited by a, macroglobulin but not by the inhibitors of serine, cysteine, thiol, aspartic proteinases and calpains; (iii) it was found to be inhibited by TIMP-2, the specific inhibitor of MMP-2; (iv) like MMP-2, obtained from other sources, its major substrates were found to be collagens (type IV and V) and gelatins (type I, IV and V). Additionally, the purified MMP-2 degrades Dnp-Pro-Gln-Gly-Ile-Ala-Gly-Gln-D-Arg-OH (dinitrophenyl labelled peptide), a well known synthetic substrate for the MMP-2.
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PMID:Identification, purification and characterization of matrix metalloproteinase-2 in bovine pulmonary artery smooth muscle plasma membrane. 1503 Jan 72

The in vitro inhibitory activity of the rice Bowman-Birk inhibitor (rBBI) or soybean Bowman-Birk inhibitor (sBBI) against trypsin-catalyzed activation of pro-matrix metalloproteinase 1 or 9 (pro-MMP-1 or pro-MMP-9), respectively, was investigated using electrophoresis with silver staining, heparin-enhanced zymography, biotinylated gelatin, Biotrak assay, and fluorescence quenched substrate hydrolysis. rBBI at concentrations of 0.08-0.352 mg/mL dose-dependently inhibited the in vitro activation of 45 microg/mL pro-MMP-1 by trypsin. Heparin-enhanced zymography analysis of pro-MMP-1, trypsin-activated MMP-1, and a mixture of pro-MMP-1-trypsin-rBBI showed clear zones associated with trypsin-activated MMP-1 and the absence of clear zones in lanes containing pro-MMP-1 or a mixture of pro-MMP-1, trypsin, and rBBI. The results of the Biotrak assay also indicated that rBBI dose-dependently suppressed the activation of pro-MMP-1 by trypsin. sBBI dose-dependently inhibited the activation of 100 microg/mL of pro-MMP-9 by trypsin. Biotinylated gelatin assays demonstrated that pro-MMP-9 or pro-MMP-9 in the presence of trypsin and BBI did not hydrolyze gelatin, whereas p-aminophenylmercury acetate (APMA)-activated MMP-9 and trypsin-activated MMP-9 caused significant hydrolysis of gelatin. Quenched fluorescence substrate hydrolysis for total MMP activity showed that pro-MMP-1 or pro-MMP-9 did not hydrolyze the substrate Mca-Pro-Leu-Gly-Leu-Dpa-Ala-Arg-NH2; active MMP-1 or MMP-9 hydrolyzed the substrate, but lower substrate hydrolysis was obtained when pro-MMP-1 or pro-MMP-9 was incubated with trypsin in the presence of increasing concentrations of rBBI. The results are discussed in light of the role of MMP-1 and MMP-9 in the process of angiogenesis and the potential of rBBI or sBBI as a functional food ingredient.
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PMID:In vitro inhibition of the activation of Pro-matrix Metalloproteinase 1 (Pro-MMP-1) and Pro-matrix metalloproteinase 9 (Pro-MMP-9) by rice and soybean Bowman-Birk inhibitors. 1526 7

Monocytes encounter basement membranes and interact with laminins while crossing the vascular barrier. It is known that these cells possess ecto-protein kinase activity on their surface. Several proteins of the extracellular matrix can be phosphorylated by ectokinases. Therefore, it has been hypothesized that monocyte ectokinases could phosphorylate laminins and influence their biological properties. In order to test the above hypothesis, we used intact human monocytes and adenosine triphosphate labeled with radioactive phosphate at the third phosphate ([gamma-32P]-ATP) to phosphorylate laminin-1. Autoradiography after sodium dodecyl sulphate polyacrylamyde gel electrophoresis (SDS-PAGE) electrophoresis indicated phosphorylation of laminin-1 on the beta and/or gamma chains. After phosphorylation, phosphoserine could be detected on Western blots by a specific monoclonal antibody. Phosphorylation was not detected when monocytes were pre-treated with trypsin and was inhibited by a specific ecto-protein kinase inhibitor (K252b). Laminin phosphorylation was also inhibited by heparin, a known inhibitor of casein kinase II and by pretreatment of monocytes by a monoclonal anti-casein kinase II antibody. Heparin binding, cell attachment and proliferation, and monocyte migration were enhanced on the phosphorylated laminin-1 as compared to the non-phosphorylated controls. These data indicate that laminin-1 can be phosphorylated by monocyte casein kinase II type ectokinase. This phosphorylation influences important functions of laminin and therefore could provide an additional means for the interaction of monocytes with basement membranes.
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PMID:Laminin-1 is phosphorylated by ecto-protein kinases of monocytes. 1547 91

Human tryptase-beta (HTbeta) is a serine protease with an atypical tetrameric structure and an unusual dependence on heparin binding or high salt for functional and structural stability. In the absence of heparin and at physiological salt, pH, and temperature, HTbeta rapidly loses activity by a reversible process that we have called spontaneous inactivation. The role of tetramer dissociation in this process is controversial. Using small irreversible or competitive inhibitors of HTbeta as stabilizing ligands, we were able to examine tetramer stability under inactivating (decay) conditions in the absence of heparin and to define further the process of spontaneous inactivation. Size exclusion chromatography showed that interaction with inhibitors stabilized the tetramer. Using sedimentation equilibrium, spontaneously inactivated HTbeta (si-HTbeta) was shown to be a destabilized tetramer that dissociates upon dilution and which in the presence of a competitive inhibitor re-formed a stable tetramer. Addition of inhibitors to si-HTbeta rescued catalytic activity as was shown after inhibitor displacement. At high concentrations of si-HTbeta (4-5 microM), the binding of inhibitor alone provided sufficient free energy for complete reactivation and tetramer stabilization, whereas at low si-HTbeta concentration (0.1 microM) where the destabilized tetramer would be mostly dissociated, reactivation required more free energy which was provided by the binding of both an inhibitor and heparin. The results demonstrate that HTbeta is a tetramer in the absence of heparin and that tetramer dissociation is a consequence of and not a prerequisite for inactivation. Heparin binding likely stabilizes the tetramer by favoring a functionally active conformation with stable intersubunit contacts, rather than by simply cross-linking active monomers.
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PMID:The interaction of human tryptase-beta with small molecule inhibitors provides new insights into the unusual functional instability and quaternary structure of the protease. 1573 67


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