Your search keyword '"Seiji Hongo"' showing total 4 results

1. Growth Kinetics of Influenza C Virus Antigenic Mutants That Escaped from Anti-Hemagglutinin Esterase Monoclonal Antibodies and Viral Antigenic Changes Found in Field Isolates

Author

Yoko Matsuzaki, Kanetsu Sugawara, Yoshitaka Shimotai, Yoko Kadowaki, Seiji Hongo, Katsumi Mizuta, and Hidekazu Nishimura

Subjects

influenza C virus, escape mutant, antigenic drift, growth kinetics, surveillance, Microbiology, QR1-502

Abstract

The antigenicity of the hemagglutinin esterase (HE) glycoprotein of influenza C virus is known to be stable; however, information about residues related to antigenic changes has not yet been fully acquired. Using selection with anti-HE monoclonal antibodies, we previously obtained some escape mutants and identified four antigenic sites, namely, A-1, A-2, A-3, and Y-1. To confirm whether the residues identified as the neutralizing epitope possibly relate to the antigenic drift, we analyzed the growth kinetics of these mutants. The results showed that some viruses with mutations in antigenic site A-1 were able to replicate to titers comparable to that of the wild-type, while others showed reduced titers. The mutants possessing substitutions in the A-2 or A-3 site replicated as efficiently as the wild-type virus. Although the mutant containing a deletion at positions 192 to 195 in the Y-1 site showed lower titers than the wild-type virus, it was confirmed that this region in the 190-loop on the top side of the HE protein is not essential for viral propagation. Then, we revealed that antigenic changes due to substitutions in the A-1, A-3, and/or Y-1 site had occurred in nature in Japan for the past 30 years. These results suggest that some residues (i.e., 125, 176, 192) in the A-1 site, residue 198 in the A-3 site, and residue 190 in the Y-1 site are likely to mediate antigenic drift while maintaining replicative ability.

Published

2021

2. Neutralizing Epitopes and Residues Mediating the Potential Antigenic Drift of the Hemagglutinin-Esterase Protein of Influenza C Virus

Author

Yoko Matsuzaki, Kanetsu Sugawara, Yuki Furuse, Yoshitaka Shimotai, Seiji Hongo, Katsumi Mizuta, and Hidekazu Nishimura

Subjects

influenza C virus, escape mutant, antigenic structure, epidemiology, Microbiology, QR1-502

Abstract

We mapped the hemagglutinin-esterase (HE) antigenic epitopes of the influenza C virus on the three-dimensional (3D) structure of the HE glycoprotein using 246 escape mutants that were selected by a panel of nine anti-HE monoclonal antibodies (MAbs), including seven of the C/Ann Arbor/1/50 virus and two of the C/Yamagata/15/2004 virus. The frequency of variant selection in the presence of anti-HE MAbs was very low, with frequencies ranging from 10−4.62 to 10−7.58 for the C/Ann Arbor/1/50 virus and from 10−7.11 to 10−9.25 for the C/Yamagata/15/2004 virus. Sequencing of mutant HE genes revealed 25 amino acid substitutions at 16 positions in three antigenic sites: A-1, A-2, and A-3, and a newly designated Y-1 site. In the 3D structure, the A-1 site was widely located around the receptor-binding site, the A-2 site was near the receptor-destroying enzyme site, and the Y-1 site was located in the loop on the topside of HE. The hemagglutination inhibition reactions of the MAbs with influenza C viruses, circulating between 1947 and 2016, were consistent with the antigenic-site amino acid changes. We also found some amino acid variations in the antigenic site of recently circulating strains with antigenic changes, suggesting that viruses that have the potential to alter antigenicity continue to circulate in humans.

Published

2018

3. Growth Kinetics of Influenza C Virus Antigenic Mutants That Escaped from Anti-Hemagglutinin Esterase Monoclonal Antibodies and Viral Antigenic Changes Found in Field Isolates

Author

Seiji Hongo, Hidekazu Nishimura, Yoko Matsuzaki, Yoshitaka Shimotai, Katsumi Mizuta, Kanetsu Sugawara, and Yoko Kadowaki

Subjects

0301 basic medicine, Antigenicity, Influenzavirus C, medicine.drug_class, viruses, 030106 microbiology, Mutant, lcsh:QR1-502, escape mutant, Biology, Monoclonal antibody, lcsh:Microbiology, Article, Antigenic drift, Virus, Madin Darby Canine Kidney Cells, 03 medical and health sciences, Dogs, Virology, medicine, Animals, Antigens, Viral, antigenic drift, growth kinetics, chemistry.chemical_classification, Hemagglutinin esterase, virus diseases, Antigenic Variation, influenza C virus, 030104 developmental biology, Infectious Diseases, chemistry, surveillance, Influenza C Virus, Glycoprotein

Abstract

The antigenicity of the hemagglutinin esterase (HE) glycoprotein of influenza C virus is known to be stable, however, information about residues related to antigenic changes has not yet been fully acquired. Using selection with anti-HE monoclonal antibodies, we previously obtained some escape mutants and identified four antigenic sites, namely, A-1, A-2, A-3, and Y-1. To confirm whether the residues identified as the neutralizing epitope possibly relate to the antigenic drift, we analyzed the growth kinetics of these mutants. The results showed that some viruses with mutations in antigenic site A-1 were able to replicate to titers comparable to that of the wild-type, while others showed reduced titers. The mutants possessing substitutions in the A-2 or A-3 site replicated as efficiently as the wild-type virus. Although the mutant containing a deletion at positions 192 to 195 in the Y-1 site showed lower titers than the wild-type virus, it was confirmed that this region in the 190-loop on the top side of the HE protein is not essential for viral propagation. Then, we revealed that antigenic changes due to substitutions in the A-1, A-3, and/or Y-1 site had occurred in nature in Japan for the past 30 years. These results suggest that some residues (i.e., 125, 176, 192) in the A-1 site, residue 198 in the A-3 site, and residue 190 in the Y-1 site are likely to mediate antigenic drift while maintaining replicative ability.

Published

2021

4. Neutralizing Epitopes and Residues Mediating the Potential Antigenic Drift of the Hemagglutinin-Esterase Protein of Influenza C Virus

Author

Kanetsu Sugawara, Katsumi Mizuta, Yoko Matsuzaki, Seiji Hongo, Hidekazu Nishimura, Yoshitaka Shimotai, and Yuki Furuse

Subjects

0301 basic medicine, Influenzavirus C, lcsh:QR1-502, Hemagglutinins, Viral, escape mutant, Biology, Antibodies, Viral, Article, Epitope, Antigenic drift, Virus, lcsh:Microbiology, Epitopes, Mice, 03 medical and health sciences, Virology, Antigenic variation, Animals, Antigens, Viral, Mice, Inbred BALB C, Binding Sites, Hemagglutination assay, Hemagglutinin esterase, Antibodies, Monoclonal, Hemagglutination Inhibition Tests, antigenic structure, Antibodies, Neutralizing, Antigenic Variation, 030104 developmental biology, Infectious Diseases, influenza C virus, Amino Acid Substitution, Mutation, epidemiology, Influenza C Virus, Viral Fusion Proteins

Abstract

We mapped the hemagglutinin-esterase (HE) antigenic epitopes of the influenza C virus on the three-dimensional (3D) structure of the HE glycoprotein using 246 escape mutants that were selected by a panel of nine anti-HE monoclonal antibodies (MAbs), including seven of the C/Ann Arbor/1/50 virus and two of the C/Yamagata/15/2004 virus. The frequency of variant selection in the presence of anti-HE MAbs was very low, with frequencies ranging from 10&minus, 4.62 to 10&minus, 7.58 for the C/Ann Arbor/1/50 virus and from 10&minus, 7.11 to 10&minus, 9.25 for the C/Yamagata/15/2004 virus. Sequencing of mutant HE genes revealed 25 amino acid substitutions at 16 positions in three antigenic sites: A-1, A-2, and A-3, and a newly designated Y-1 site. In the 3D structure, the A-1 site was widely located around the receptor-binding site, the A-2 site was near the receptor-destroying enzyme site, and the Y-1 site was located in the loop on the topside of HE. The hemagglutination inhibition reactions of the MAbs with influenza C viruses, circulating between 1947 and 2016, were consistent with the antigenic-site amino acid changes. We also found some amino acid variations in the antigenic site of recently circulating strains with antigenic changes, suggesting that viruses that have the potential to alter antigenicity continue to circulate in humans.

Published

2018