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Query: UMLS:C0021400 (influenza)
57,666 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Information on the antigenic structure of influenza hemagglutinin (HA) has been deduced previously from sequence analyses of laboratory mutant viruses selected, in vitro, with neutralizing monoclonal antibody (mAb) established exclusively from BALB/c (H-2d) mice; and there has been no attempt to investigate the influence of host genetic background, or natural route of infection, on the protective antibody repertoire. CBA/Ca mice are extremely sensitive to X31 virus infection, and in the present study a structural analysis was made of the antibody repertoire, by direct sequencing of the HA genes of laboratory mutant viruses selected, in ovo with mAb from CBA/Ca mice primed by natural infection with X31 virus at two different infectious doses. Single nucleotide substitutions in the HA genes of mutant viruses identified both novel and immunodominant antigenic sites on the HA1 subunit: a majority of mAbs, from different donors, were of the IgG2a isotype and were specific for HA1 158 Gly. In addition, novel laboratory mutants were obtained containing substitutions in the HA1 subunit that had not been reported previously for H3 subtype viruses, either natural variants or laboratory mutants, at residues: HA1 62 Ile----Arg; HA1 165 Asn----Ser (resulting in the loss of a N-glycosylation site); and HA1 273 Pro----Leu. Our findings suggest that host genetic background and/or a natural route of infection may be significant factors in the selection of different and distinct neutralizing antibody responses to influenza HA and therefore be of some relevance in our further understanding of the immune pressure for antigenic drift, and the immunogenic features of a protective antigen.
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PMID:Structural assignment of novel and immunodominant antigenic sites in the neutralizing antibody response of CBA/Ca mice to influenza hemagglutinin. 170 53

The crystal structure of the HLA-Aw68.1 antigen binding site revealed a negatively charged pocket centred on aspartic acid 74 (Garrett et al. 1989). Access to this '74 pocket' is blocked in HLA-Aw68.2 and HLA-Aw69 by two substitutions at positions 97 and 116. This key feature suggests that the Aw68.1-peptide-specific interactions may involve salt bridges between oppositely charged residues. In this paper, the influenza epitope recognized by virus-specific HLA-Aw68.1-restricted cytotoxic T lymphocytes (CTL) has been defined in vitro with a synthetic peptide corresponding to residues 89-101 of the nucleoprotein (NP). Amino acid substitutions of the peptide NP 89-101 showed that the arginine at position 99 is an anchor point of the peptide within the Aw68.1 antigen binding site. Consistent with this we find that neither HLA-Aw68.2 nor HLA-Aw69 positive cells can present peptide NP 89-101 to Aw68.1-restricted CTL. Our results therefore suggest a model in which presentation of NP 89-101 by HLA-Aw68.1 is dependent upon interaction of the positively charged arginine residue at position 99 of the peptide, with the negatively charged aspartic acid in the '74 pocket' of HLA-Aw68.1. We also show that influenza-virus-specific HLA-Aw68.1-restricted CTL are CD8 independent. This result is consistent with the low affinity of HLA-Aw68.1 for CD8 (Salter et al. 1989) and reveals a unique example of CD8-independent priming of CTL by natural infection with a common pathogen in humans.
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PMID:CD8 independence and specificity of cytotoxic T lymphocytes restricted by HLA-Aw68.1. 171 94

Several mutant HLA-A2 molecules have been constructed and expressed in the mutant human B-cell line C1R, which lacks HLA-A and HLA-B antigens, and examined for presentation of a previously defined peptide epitope derived from the influenza matrix protein to appropriate human cytotoxic T-lymphocyte lines. When leucine residue 66 in this matrix peptide containing residues 57-68 (matrix peptide 57-68) was replaced by arginine, the resulting matrix peptide 57-68 R66 was not presented to HLA-A2, but the mutation Y116D (tyrosine to aspartic acid at residue 116) in the floor of the peptide binding cleft near its right end dramatically restored peptide presentation. A similar result was obtained by substitution of ornithine for leucine at residue 66. These data provide strong support for a model in which the peptide is orientated with its amino terminus at the left end of the cleft of HLA-A2 and its carboxyl terminus at the right.
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PMID:Positioning of a peptide in the cleft of HLA-A2 by complementing amino acid changes. 176 45

A plasmid analogous to the one described by Nagai and Thogersen (Nature, 309, 810-812, 1984) has been constructed for the expression of globins in E. coli. Induction with nalidixic acid produces high yields of a fusion protein, NS1-FX-beta-globin, where NS1 represents 81 residues of a flu virus protein and FX represents a blood-clotting Factor Xa recognition sequence, Ile-Glu-Gly-Arg. This fusion protein is readily solubilized in 50 mM NaOH and remains in solution when the pH is adjusted to 8.6. Under these conditions, the fusion protein is hydrolyzed by activated Factor X, giving authentic beta-globin which can be folded in the presence of cyanohemin and native alpha-chains to produce a tetrameric hemoglobin with the functional properties of natural human hemoglobin.
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PMID:Recombinant human hemoglobin: expression and refolding of beta-globin from Escherichia coli. 179 7

Factors determining cleavability of influenza virus hemagglutinin which is activated by ubiquitous cellular endoproteases were analysed by carrying out site-directed mutagenesis on the cloned hemaglutinin genes of strains A/FPV/Rostock/34 (subtype H7) and A/Port Chalmers/1/73 (subtype H3). Substitutions at the cleavage site of the H7 hemagglutinin indicate that the tetrapeptide Arg-X-Lys/Arg-Arg is the minimal consensus sequence recognized by the ubiquitous proteases. The H3 hemagglutinin also became susceptible to these enzymes, when additional arginines were inserted at the cleavage site. Three arginines were sufficient, when the carbohydrate was removed, whereas four additional arginines are needed when this carbohydrate was present, indicating that the accessibility of the cleavage motif is important for the protease. The appropriate localization of the basic cleavage motif within the amino acid sequence and the spatial structure of the hemagglutinin precursor is an additional prerequisite for cleavage.
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PMID:Modification of the cleavage activation of the influenza virus hemagglutinin by site-specific mutagenesis. 193 91

To examine the prerequisites for cleavage activation of the hemagglutinin of human influenza viruses, a cDNA clone obtained from strain A/Port Chalmers/1/73 (serotype H3) was subjected to site-directed mutagenesis and expressed in CV-1 cells by using a simian virus 40 vector. The number of basic residues at the cleavage site, which consists of a single arginine with wild-type hemagglutinin, was increased by inserting two, three, or four additional arginines. Like wild-type hemagglutinin, mutants with up to three additional arginines were not cleaved in CV-1 cells, but insertion of four arginines resulted in activation. When the oligosaccharide at asparagine 22 of the HA1 subunit of the hemagglutinin was removed by site-directed mutagenesis of the respective glycosylation site, only three inserted arginines were required to obtain cleavage. Mutants containing a series of four basic residues were also generated by substituting arginine for uncharged amino acids immediately preceding the cleavage site. The observation that these mutants were not cleaved, even when the carbohydrate at asparagine 22 of HA1 was absent, underscores the fact that the basic peptide had to be generated by insertion to obtain cleavage. The data show that the hemagglutinin of a human influenza virus can acquire high cleavability, a property known to be an important determinant for the pathogenicity of avian influenza viruses. Factors important for cleavability are the number of basic residues at the cleavage site, the oligosaccharide at asparagine 22, and the length of the carboxy terminus of HA1.
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PMID:Human influenza virus hemagglutinin with high sensitivity to proteolytic activation. 204 Oct 80

Hydrin 1 is the biosynthetic precursor of vasotocin in Xenopus laevis. We have synthesized deamino and fluorescein analogues of hydrin 1 and characterized their physiological action in the urinary bladder of the toad, Bufo marinus. 1-Deamino-hydrin 1 (d-hydrin) was more potent than vasotocin in stimulating osmotic water flow across intact bladders and more potent than vasotocin in displacing tritium-labeled vasopressin [( 3H]AVP) from cell membranes. 1-Deamino-[11-lysine (fluorescein)]-hydrin 1 (flu-hydrin) was found to be the most potent fluorescent vasotocin receptor probe synthesized to date. Flu-hydrin increased osmotic water flow across bladders with a half-maximal effective dose (ED50) value of 6 x 10(-10) M and displaced [3H]AVP from membranes with a half-maximal concentration (IC50) value of 3 x 10(-9) M. The hydrosmotic response to flu-hydrin was blocked by 1-deamino-[4-lysine (p-azido-benzoyl)]arginine vasotocin [d4Lys(N3)-AVT]. Epifluorescence light microscopic studies showed vesicular uptake of flu-hydrin at the basolateral membrane of toad bladder epithelial cells, and this uptake was blocked by d4Lys(N3)AVT. This study shows that d-hydrin can serve as a foundation molecule to which reporter groups, such as fluorescent residues, can be attached with better preservation of hydrosmotic activity than is possible with similar modifications of vasotocin.
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PMID:A fluorescent analogue of hydrin 1: a new probe for vasotocin receptors. 212 Oct 46

A functional analysis was undertaken of the effects of mutating single amino acid residues in the alpha chain of the I-Ak molecule (to alanine; residues 50-79) on the ability of I-Ak transfectants to process and present influenza haemagglutinin to CD4+ T cell clones specific for two major antigenic sites of the HA1 subunit. In each instance, T cells were insensitive to a majority of substitutions in Ak with the exception of a few critical residues that differed for individual T cell clones. But more significantly, the failure of T cell clones to respond to mutant influenza viruses, containing drift substitutions within a T cell recognition site, in association with wild type I-Ak, could be reversed by single substitutions in Ak alpha. A T cell clone specific for HA1 120-139 failed to respond to a laboratory mutant virus (HA1 135 Gly----Arg) whereas optimal responses were observed with a mutant Ak transfectant (Ak alpha 56 Arg----Ala). Similarly, mutant transfectant 62 (Ak alpha 62 Gly----Ala) was able to present a natural variant virus A/TEX/77 to a T cell clone specific for HA1 48-67. We propose that Ak alpha 56 and Ak alpha 62 increase the affinity of association of mutant HA1 peptides for class II and therefore confer T cell recognition of variant viruses.
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PMID:Defects in antigen presentation of mutant influenza haemagglutinins are reversed by mutations in the MHC class II molecule. 212 52

Recently we described an HLA B27-restricted peptide derived from HIV gag p24 protein. In this study we have isolated an HLA B27-restricted peptide from the nucleoprotein (NP) of influenza A virus. The shortest fragment recognized by cytotoxic T lymphocyte (CTL) is eight amino acids long, residues 384-391. Comparison of the sequence of these two HLA B27 restricted peptides reveals homologies which can be aligned from one peptide to the other. Of the eight residues, two are identical: tryptophan and isoleucine. Both peptides have a positively charged residue at the N terminus, lysine at position 265 of gag and arginine at position 384 of NP. Using modified peptides we have shown that lysine or arginine is crucial for the interaction with HLA B27. The wild-type gag peptide blocked CTL recognition of NP peptide by influenza-specific CTL, but removal of the lysine prevented inhibition of NP peptide recognition. The importance of these charged residues was confirmed by the observation that truncated NP and gag peptides where the lysine or arginine was removed were not recognized by specific CTL. Further studies showed that the tryptophan residue influenced the association of the gag peptide with HLA B27, because the affinity of the gag peptide for B27 was strongly increased after replacing this residue with a leucine or a tyrosine. However, these peptides were not recognized by gag-specific CTL, suggesting that the tryptophan may interact with both HLA B27 and T cell receptor. These observations should help in the identification of HLA B27-restricted peptides from other viruses or organisms.
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PMID:Structural homologies between two HLA B27-restricted peptides suggest residues important for interaction with HLA B27. 212 95

Sialic acid residues are required in cellular receptors for many different mammalian viruses. Sialic acid could have a direct role, being an integral part of the virus binding site on the receptor. Alternatively, negatively charged sialic acid could have an indirect role, being responsible for holding the receptor in the required configuration for virus recognition, for instance, by interacting with positively charged amino acid residues found in the polypeptide chain of receptors. We have investigated the role of sialic acid in virus attachment by studying the interaction of the small RNA virus encephalomyocarditis (EMC) with glycophorin A, its receptor on human erythrocytes. In several experiments, influenza virus A was used for control purposes. Blocking positive charges on glycophorin either in lysine residues by acetylation or in arginine residues with butanedione did not affect its interaction with EMC virus. In contrast, blocking negatively charged carboxyl groups in sialic acid residues by amidation destroyed the ability of glycophorin to inhibit EMC virus attachment suggesting an important role for this part of sialic acid in EMC virus attachment. Removal of the polyhydroxy side chain in sialic acid residues of glycophorin by mild oxidation with periodate followed by reduction with borohydride had little effect on its interaction with EMC virus. Further, sialic acid species with either an acetyl or glycolyl group attached to the amino group on position 5 interacted equally well with EMC virus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for a direct role for sialic acid in the attachment of encephalomyocarditis virus to human erythrocytes. 217 79

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