Structure-Based Modification of an Anti-neuraminidase Human Antibody Restores Protection Efficacy against the Drifted Influenza Virus

Haihai Jiang; Weiyu Peng; Jianxun Qi; Yan Chai; Hao Song; Yuhai Bi; Pramila Rijal; Haiyuan Wang; Babayemi Olawale Oladejo; Jinhua Liu; Yi Shi; George F. Gao; Alain Townsend; Yan Wu

doi:10.1128/mbio.02315-20

Structure-Based Modification of an Anti-neuraminidase Human Antibody Restores Protection Efficacy against the Drifted Influenza Virus

Haihai Jiang(Chinese Academy of Sciences), Weiyu Peng(Chinese Academy of Sciences), Jianxun Qi(Chinese Academy of Sciences), Yan Chai(Chinese Academy of Sciences), Hao Song(Chinese Academy of Sciences), Yuhai Bi(Chinese Academy of Sciences), Pramila Rijal(University of Oxford), Haiyuan Wang(Chinese Academy of Sciences), Babayemi Olawale Oladejo(Chinese Academy of Sciences), Jinhua Liu(China Agricultural University), Yi Shi(Chinese Academy of Sciences), George F. Gao(Chinese Academy of Sciences), Alain Townsend(University of Oxford), Yan Wu(Capital Medical University)

mBio

October 5, 2020

10.1128/mbio.02315-20

Cited by 34Open Access

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Abstract

The immune system produces antibodies to protect the human body from harmful invaders. The monoclonal antibody (MAb) is one kind of effective antivirals. In this study, we isolated an antibody (Z2B3) from an H7N9 influenza virus-infected child. It shows cross-reactivity to both group 1 (N1) and group 2 (N9) neuraminidases (NAs) but is sensitive to N1 NA with a K432E substitution. Structural analysis of the NA-antibody fragment antigen-binding (Fab) complex provides a clue for antibody modification, and the modified antibody restored binding and inhibition to recently drifted N1 NA and regained protection against the variant influenza strain. This finding suggests that antibodies to NA may be a useful therapy and can be in principle edited to defeat drifted influenza virus.

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