Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.53 (sialidase)
 2,694 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated effects of isoscutellarein-8-methylether (5,7,4'-trihydroxy-8-methoxyflavone, F36) from the roots of Scutellaria baicalensis on the single-cycle replication of mouse-adapted influenza viruses A/Guizhou/54/89 (H3N2 subtype) and B/Ibaraki/2/85 in Madin-Darby canine kidney (MDCK) cells. The agent suppressed replication of these viruses from 6 to 12 h after incubation in a dose-dependent manner by 50% at 20 microM and 90% at 40 microM, respectively. F36 (50 microM) reduced the release of B/Ibaraki virus in the medium by 90-93% when it was added to the MDCK cells at 0 to 4 h after incubation. The cell-associated virus determined by sialidase activity was also reduced by the treatment at 0 to 4 h. F36 (120 microM) inhibited the low pH-dependent membrane fusion of both the viruses with the liposome containing mixed gangliosides from bovine brain. However, the agent little affected the hemagglutination and RNA-dependent RNA polymerase activities of these viruses in vitro. These results suggest that F36 inhibits the replication of A/Guizhou and B/Ibaraki viruses at least partly by inhibiting the fusion of viral envelopes with the endosome/lysosome membrane which occurs at the early stage of the virus infection cycle. F36 (0.5 mg/kg) showed no antiviral activity against A/Guizhou and B/Ibaraki viruses in mice when administered intranasally 5 min prior to virus inoculation, whereas it significantly inhibited their proliferation in the mouse lung when administered intranasally 7 times (total 3.5 mg/kg) from 18 h before to 54 h after virus infection.
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PMID:Antiviral activity of plant flavonoid, 5,7,4'-trihydroxy-8-methoxyflavone, from the roots of Scutellaria baicalensis against influenza A (H3N2) and B viruses. 774 1

Cultured epithelial cells isolated from guinea pig trachea were treated with Vibrio cholerae sialidase. The treatment was not cytotoxic and resulted in membrane desialylation as assessed by measurement of sialic acids released, along with an increased fixation of the galactose-specific lectin peanut agglutinin. After incubation in serum from normal guinea pigs, membrane-bound immunoglobulins were detected using peroxidase-labelled antibodies. Sialidase-treated cells bound significantly more IgM than controls (P < 0.0005), whereas binding of IgG was not significantly different between treated and untreated cells (0.1 < P < 0.375); IgA were never detected. In influenza-infected guinea-pigs, as assessed by reactivity with peanut agglutinin, the tracheal and lung epithelium, as well as alveolar cells were hyposialylated. In these animals, the level of serum IgG autoantibodies capable to bind sialidase treated cultured cells increased, while the level of IgM autoantibodies did not change. These autoantibodies may participate in cellular dysfunctions and modified bronchoreactivity that occur during infection of the respiratory tract by sialidase-producing microorganisms, either through activation of the complement system, or subsequently to their reaction with cells expressing membrane complement and/or Fc receptors.
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PMID:Binding of serum autoantibodies to sialidase-treated tracheal epithelial cells. Determination of autoantibodies isotypes in normal and influenza virus infected guinea pig sera. 782 32

We demonstrate the potent antiviral activity of a novel viral neuraminidase (sialidase) inhibitor, 4-guanidino-2,4-dideoxy-2,3-dehydro-N-acetylneuraminic acid (GG167), administered by the intranasal route in comparison with those of amantadine and ribavirin in experimental respiratory tract infections induced with influenza A and B viruses. In an extended study in which mice were infected (day 0) with influenza A/Singapore/1/57 virus, with treatments given prophylactically plus twice daily over days 0 to 3 and with mice observed to day 10, we show that intranasally administered GG167 at 0.4 and 0.01 mg/kg of body weight per dose reduced mortality, lung consolidation, and virus titers in the lung, with no virus growing back following the cessation of treatment. In other studies with influenza B/Victoria/102/85 virus in which infected mice were culled after the cessation of treatment, the calculated intranasal dose required to reduce virus titers in the lungs of treated animals to 10% of that seen in untreated controls (EDAUC10 [where AUC is area under the virus titer days curve]) was 0.085 mg/kg per dose. GG167 was inactive against influenza viruses A and B when given by the intraperitoneal or oral route (EDAUC10, > 100 mg/kg per dose). GG167 was metabolically stable, with an elimination half-life of 10 min following intravenous administration. While readily bioavailable by systemic routes, it was poorly bioavailable by the oral route. Its potent efficacy by the intranasal route but lack of efficacy by other routes, relative to those of amantadine and ribavirin, was explicable in terms of its in vitro activity, bioavailability, and pharmacokinetic properties and with the extracellular activity of viral sialidase.
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PMID:Inhibition of influenza virus replication in mice by GG167 (4-guanidino-2,4-dideoxy-2,3-dehydro-N-acetylneuraminic acid) is consistent with extracellular activity of viral neuraminidase (sialidase). 784 May 56

Using searching techniques based on algorithms derived from graph theory, we have established a similarity between a 3-dimensional cluster of side chains implicated in drug binding in influenza sialidase and side chains involved in isocitrate binding in Escherichia coli isocitrate dehydrogenase. The possible implications of the use of such comparative methods in drug design are discussed.
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PMID:Structural similarity between binding sites in influenza sialidase and isocitrate dehydrogenase: implications for an alternative approach to rational drug design. 792 Feb 62

Sodium 5-acetamido-2,6-anhydro-3,4,5-trideoxy-D-manno-non-2-enonate (2) has been synthesized from N-acetyl-4-deoxy-neuraminic acid methyl ester (4). Sodium 2,6-anhydro-3-deoxy-L-arabino-hept-2-enonate (3), 4-acetamido-2,6-anhydro-3,4-dideoxy-L-arabino-hept-2-enonic acid (18e), and 4-acetamido-2,6-anhydro-3,4-dideoxy-L-ribo-hept-2-enonic acid (18a) have been prepared from L-arabinose. The above compounds were investigated as inhibitors of sialidase from Influenza virus. Only compound 2 showed a significant inhibitory activity (Ki 8 x 10(-2) mM) against the enzyme.
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PMID:Synthesis of transition-state analogues as potential inhibitors of sialidase from Influenza virus. 798 21

The sialidase inhibitor 4-guanidino-2,4-dideoxy-2,3-dehydro-N- acetylneuraminic acid was tested for growth inhibitory effects against a panel of avian influenza A viruses encompassing all nine neuraminidase subtypes. Growth in tissue culture of viruses from each subtype was inhibited by this compound at concentrations within a range previously found effective against human N1 and N2 viruses. This compound may prove a selective agent for the treatment (and prevention) of influenza virus infections.
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PMID:Inhibition of the growth of influenza viruses in vitro by 4-guanidino-2,4-dideoxy-N-acetylneuraminic acid. 799 78

The present study was conducted to investigate the characteristics of two samples of influenza A/England/42/72 (H3N2) virus, one of them selected by an adsorption-elution technique, to determine the possible existence of virus variants or subpopulations. Based on specificity of virulence-related cell receptor-binding and sialidase activities, this selection technique using human O group erythrocytes revealed the presence of variants within a standard virus sample with diversity for their hemagglutinating and sialidase activities. The standard-like (E1) sample exhibited titers of 4 and 32 HAU (hemagglutinating units in 25 microliters) with human O group and chicken erythrocytes, respectively, while the sample obtained by the adsorption-elution process (E2) exhibited titers of 32 and 4 HAU, respectively, with these same types of erythrocytes. The E2 sample showed higher sialidase activity at pH values between 5.4 and 6.6 with human erythrocytes (128-256 HAU), but the E1 sample did not exhibit significant sialidase activity with either human or chicken erythrocytes. The different pH optima for hemolysis (5.2) and sialidase (5.4-6.6) activities and the higher hemolysis indexes present in samples with sialidase activity inhibited by heating (at 56 degrees C for 30 min) or by treatment with EDTA (dilution in buffer containing 2 mM EDTA, a chelating agent on calcium-dependent sialidase activity) demonstrate the independence of these activities in the selected sample: native E2 (absorbance = 0.18), EDTA-treated native E2 (absorbance = 0.28), heated E2 (absorbance = 0.26), EDTA-treated heated E2 (absorbance = 0.41).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hemagglutinating and sialidase activities of subpopulations of influenza A viruses. 800 Mar 35

Sialidase from influenza virus A (Tokyo/3/67, N2) is inhibited in slow-binding fashion by 2,3-didehydro-2,4-dideoxy-4-guanidino-N-acetyl-D-neuraminic acid. The Ki observed for the tightly-bound form at steady-state is 3 x 10(-11) M. Slow-binding, which is a consequence of the guanidinyl moiety of the inhibitor, is observed only for influenza virus A sialidase and not for influenza virus B or any other viral, bacterial, or mammalian sialidase investigated. The different results obtained for sialidases from influenza virus A and B, whose active sites are conserved, point to the involvement of the expulsion of a structural water molecule in the slow-binding mechanism.
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PMID:Slow-binding inhibition of sialidase from influenza virus. 806 34

A molecular modeling study has been used to investigate the structural and energetic aspects of substrate and inhibitor binding and the mechanism of catalysis of influenza virus sialidase. A detailed analysis of the interactions of both N-acetylneuraminic acid (Neu5Ac,1) and a number of transition-state analogues with the active site of influenza A sialidase at an atomic level is reported. In each case the calculated structures favorably agreed with the results from X-ray studies. A qualitative agreement between the calculated binding energies for inhibitors with positive substituents at the C4 position on the sugar ring and experimental Ki values was observed. We propose that the hydrolysis of sialosides occurs via an SN1 type mechanism that is facilitated through an activated solvent water molecule which can be expelled upon inhibitor binding. A reaction scheme is presented that is consistent with previously observed crystallographic structures, anomeric products, and isotope effects.
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PMID:Molecular modeling studies on ligand binding to sialidase from influenza virus and the mechanism of catalysis. 812 1

The relative binding affinities of influenza virus N9 sialidase from term and whale with the Fab fragment of monoclonal antibody NC41 were determined using biosensor technology (Pharmacia BIAcoreTM). The apparent association and dissociation rate constants were measured in real time for the interaction of the Fab with both sialidases, the Fab being immobilised on the sensor surface. Although three-dimensional structural studies have shown that there are no apparent structural differences between the term and whale N9 sialidase epitopes to which the NC41 Fab binds, the apparent binding constant for the interaction with tern N9 sialidase was approximately 2.4-fold higher than that with whale N9 sialidase. The kinetic analysis showed that the association rate constant for the binding of whale N9 sialidase was higher than that for tern N9 sialidase (12.0 x 10(4) M-1 s-1 compared to 4.3 x 10(4) M-1 s-1) and the dissociation rate constants for the whale N9-sialidase-Fab complex were approximately 6-fold higher than for the tern N9-sialidase-Fab complex. Furthermore, kinetic analysis of the dissociation reaction showed that it was composed of two stages, an initial, faster rate followed by a late, slower rate. The values of the relative affinity constants calculated using the initial dissociation rate constant were similar to the values measured at equilibrium in the BIAcore and those determined in true solution equilibrium studies using sedimentation equilibrium. The late, slower, dissociation rate constant yielded affinity constants significantly higher than those obtained by true solution methods.
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PMID:Determination of relative binding affinity of influenza virus N9 sialidases with the Fab fragment of monoclonal antibody NC41 using biosensor technology. 822 70


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