EC:3.4.21.4 - FACTA Search

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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)

A number of different influenza C virus strains were tested for their fusion properties using a resonance energy assay which allows direct monitoring of fusion between virus membranes and artificial lipid vesicles. The fusion pH of various strains was found to range between 5.6 and 6.1. Haemolytic activity of the different strains with chicken erythrocytes was observed at slightly lower pH values and varied between 5.1 and 5.7. Studies of the kinetics of influenza C virus fusion showed distinct characteristics in fusion activity. A lag before onset of fusion was found with influenza C virus which was not observed for influenza A or B viruses. In addition, studies on the rate of conformational change of the influenza C virus glycoprotein, as determined by morphological changes and endogenous tryptophan fluorescence, suggest that the conformational change is rate-limiting in the fusion process, whereas for influenza A viruses the glycoprotein conformational change is fast and a later step in the fusion process is rate-limiting. Monitoring the conformational change of influenza C virus glycoprotein by the onset of trypsin susceptibility showed, however, that membrane fusion occurred in some cases without onset of trypsin susceptibility, indicating that the trypsin-susceptible conformation is a post-fusogenic conformation.
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PMID:Fusion characteristics of influenza C viruses. 234 68

The influenza virus A/turkey/Oregon/71 (H7N3) has been adapted to grow in MDCK or chicken embryo cells (CEC) in the absence of trypsin. Changes occurred in the biological properties of the virus variants selected, depending on the cell type used for adaptation. They coincided with enhanced hemagglutinin (HA) activation by intracellular proteolytic cleavage. In the case of MDCK cell selected variants growth, plaque formation, and HA cleavability were restricted to this cell type, whereas the CEC-derived variants displayed altered activities in a broad range of host cells. Unlike the wild-type virus and its MDCK cell-derived variants, CEC variants had acquired pathogenic properties for chickens. By nucleotide sequence analysis of the HA genes of the MDCK cell variants several point mutations were found, which were localized predominantly at the distal, globular part of the HA molecule. The mechanism by which these point mutations increased HA cleavability has not been defined. In the CEC-derived variants besides point mutations, an insertion of 54 nucleotides adjacent to the cleavage site was observed, which corresponds in its sequence to a region in the 28 S ribosomal RNA. This insertion is probably responsible for the altered cleavability of the CEC variants' HA, leading to increased growth potential and pathogenicity.
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PMID:Structural variation occurring in the hemagglutinin of influenza virus A/turkey/Oregon/71 during adaptation to different cell types. 234 64

A trypsin inhibitor, 6-amidino-2-naphthyl p-guanidinobenzoate (FUTHAN) reduced both the number and size of plaques of influenza virus A/WSN/33 (H1N1) that can grow without trypsin treatment in MDCK cells. The resulting virus particles with uncleaved hemagglutinin (HA) in the presence of FUTHAN was activated to produce infectious virions by trypsin treatment. Uncleaved HA of WSN virus grown in the presence of FUTHAN was found to be accumulated by protein analysis of WSN virus labeled biosynthetically with [35S]-methionine. It was strongly suggested that FUTHAN inhibited viral replication by preventing proteolytic cleavage of HA.
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PMID:Inhibition of influenza virus A/WSN replication by a trypsin inhibitor, 6-amidino-2-naphthyl p-guanidinobenzoate. 235 Mar 38

We have previously shown that influenza haemagglutinin (HA) acquires Endo H resistance en route to the cell surface after microinjection of its mRNA into Xenopus oocytes (Ceriotti, A. and A. Colman. 1989. J. Cell Biol. 109:1439-1444.) In this paper we use the injection of varying amounts of mRNA (0.05-5 ng/oocyte) to effect a 30-fold change in HA protein synthesis within the oocyte. Using the Endo H assay as an indicator of protein movement from the ER to the medial Golgi we find that this movement is reduced, sometimes dramatically, when intracellular HA levels fall. This reduction in movement is closely correlated with a decreased rate of trimer formation as assessed both by trypsin resistance and sedimentation analysis, leading us to conclude that trimer formation is not only, as has been shown before essential for ER-Golgi complex movement, but is the major rate limiting step in this movement. Interestingly at least 50% of unassembled HA monomers that accumulate after low HA synthesis can be rescued into trimers over 24 h later, after a second injection of concentrated HA mRNA. In contrast when we repeated this experiment with another membrane protein, the human low density lipoprotein, or with murine secretory immunoglobulin we found that the rate of movement was insensitive to the protein concentration. This latter result seemed surprising since earlier work had shown that unassembled IgG heavy chains (like monomeric HA) remain in the oocyte ER; however in these present experiments we have been unable to detect any unassembled heavy chains even at the lowest expression levels, indicating that tetramerization of Ig is much faster than trimerization of HA.
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PMID:Trimer formation determines the rate of influenza virus haemagglutinin transport in the early stages of secretion in Xenopus oocytes. 238 Feb 42

A rapid neutralization test for influenza A and B viruses was developed. In this method, a 96-well tissue culture plate was used for the preparation of cell monolayers and the peroxidase-antiperoxidase staining technique was used for the visualization of foci infected with these viruses. In the presence of trypsin and tragacanth gum, clear foci developed 1 day after infection. A linear relationship between virus dilutions and numbers of foci was observed. When neutralizing antibodies in some test sera were assayed, a good correlation was observed between the titers obtained by the focus method and those obtained by the ordinary plaque method. In addition, many serum specimens were investigated by the neutralization test, and it was demonstrated that the test is useful for serological studies of influenza.
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PMID:Rapid focus reduction neutralization test of influenza A and B viruses in microtiter system. 238 Mar 59

Microtubules have been implicated in the transport of vesicles carrying newly synthesized proteins from the trans-Golgi network (TGN) to the cell surface. We have established a quantitative in vitro binding assay to investigate the putative interaction between these exocytic carrier vesicles and the microtubules at the molecular level. TGN-derived exocytic carrier vesicles, labeled with C6NBD-ceramide metabolites or viral glycoproteins, were obtained from polarized filter-grown MDCK II cells by perforation of the apical membrane with a nitrocellulose filter. These exocytic vesicles were incubated with taxol-polymerized tubulin and cytosol, layered on top of a 30% sucrose cushion and subjected to centrifugation. Quantitation of vesicles co-sedimenting with microtubules was done by measuring NBD-fluorescence of viral glycoproteins in the pellet and supernatant fractions. About 25% of the label sedimented through the cushion in the presence of microtubules and cytosol. Both apically and basolaterally targetted carrier vesicles containing influenza virus HA2 or vesicular stomatitis virus G protein, respectively, associated with the microtubules. Only 2-5% NBD-fluorescence was obtained in the pellet when no cytosol or microtubules were added to the vesicles. Negative-stain electron microscopy of resuspended pellets showed distinct microtubule-vesicle complexes. Heat inactivation or treatment of cytosol with N-ethylmaleimide (NEM), or trypsinization of vesicles inhibited the binding of vesicles to microtubules. Furthermore, coating of microtubules with brain microtubule-associated proteins abolished binding. These data suggest that NEM-sensitive cytosolic proteins are required for microtubule-vesicle association, and that the vesicles are bound via trypsin-sensitive receptor proteins on their surface.
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PMID:Binding of exocytic vesicles from MDCK cells to microtubules in vitro. 238 28

Mouse-pathogenic influenza A/Aichi 2/68 (H3N2) grown in cell culture and having uncleaved hemagglutinin HA after treatment with trypsin underwent proteolytic shearing of HA (m.w. 75 kD) into two fragments: NAL (60 kD) and HA2 (15 kD); its lethal effect on mice inoculated intranasally increased more than 200-fold. The virus treated with chemotrypsin underwent similar shearing of HA into HAL and HA2; however, its lethal effect on mice was weak, analogous to that of intact virus with uncleaved HA.
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PMID:[The trypsin cleavage of hemagglutinin enhances the infectivity of the influenza virus in mice]. 238 64

The mandatory step in reproduction of myxoviruses (influenza viruses and paramyxoviruses) is proteolytic shearing of viral glycoproteins activating the infectivity of virions. Such activation of myxoviruses is realized by trypsin-like proteases of the host. This study demonstrated that proteolytic activation of virions could be inhibited by a physiological inhibitor of proteases, aprotinine. A single injection of aprotinine (preparations Gordox or Contrycal) into chick embryos infected with various influenza viruses (WSN/34, Udorn/72) and paramyxoviruses (Sendai/960, NDV/La Sota, NDV/Queensland) blocked shearing of viral glycoproteins, HA, FO, HNO as a result of which noninfectious virions with unsheared glycoproteins were predominantly synthesized. In aprotinine-treated embryos, multicycle virus infection was markedly decreased which led to the 10(4)-fold or greater reduction of the virus yield. The antiviral effect of protease inhibitors and possibilities of their practical use in viral diseases are discussed.
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PMID:[Suppression of the proteolytic activation of myxoviruses in infected chick embryos by using aprotinin]. 240 86

The antigenicity of influenza C viral glycoprotein gp88 was compared with that of its non-glycosylated counterpart T76 by immunoprecipitation utilizing monoclonal antibodies against gp88. Of the three monoclonal antibodies tested, an antibody designated Q-5 was found to precipitate gp88 but not T76, indicating the requirement for glycosylation for the binding of Q-5 to gp88. However, the antigenic determination recognized by Q-5 did not appear to be carbohydrates since trypsin-treatment of gp88 eliminated its reactivity with this antibody. These results suggest that glycosylation is important in determining the antigenicity of gp88 presumably by influencing the folding of the glycoproteins.
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PMID:Effects of glycosylation on the conformation and antigenicity of influenza C viral glycoproteins. 241 39

The antigenic properties of influenza C viral glycoprotein gp88 were compared with those of its nonglycosylated counterpart T76 synthesized in infected cells treated with tunicamycin. Radioimmunoprecipitation experiments with three different monoclonal antibodies against gp88 revealed that an antibody designated Q-5 precipitated gp88 but not T76, indicating the requirement for glycosylation for the binding of this antibody to gp88. It is unlikely, however, that the antigenic determinant recognized by Q-5 is carbohydrate moiety since the ability of the antibody to bind to gp88 varied depending on the virus strain, and trypsin-treatment of gp88 eliminated its reactivity with Q-5. Gel electrophoretic analysis under nonreducing conditions showed that T76 underwent the formation of disulfide-linked multimers in the absence of reducing agent while gp88 behaved as monomers, suggesting that glycosylation is required for gp88 molecules to attain an appropriate conformation. These observations, altogether, suggests that glycosylation is important in determining the immunological specificity of gp88 presumably by influencing the folding of this glycoprotein.
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PMID:The functions of oligosaccharide chains associated with influenza C viral glycoproteins. II. The role of carbohydrates in the antigenic properties of influenza C viral glycoproteins. 242 5

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