Characterization of antibody response to an epitope spanning the haemagglutinin cleavage site of H7N9 subtype avian influenza virus for the differentiation of infected and vaccinated chickens.
Zenglei HuYanyan ZhangJiao HuShunlin HuXiufan LiuPublished in: Avian pathology : journal of the W.V.P.A (2022)
H7N9 subtype avian influenza virus (AIV) is endemic in poultry in China, and vaccination is used as the primary strategy for disease control. However, by current serological tests, monitoring H7N9 virus infection in vaccinated poultry is difficult because vaccine-induced antibodies are not readily distinguishable from field viruses. Therefore, a test differentiating infected and vaccinated animals (DIVA) is critical for monitoring H7N9 virus. However, no DIVA test is available for the H7N9 subtype AIV. This study investigated the potential of an epitope (peptide 11) spanning the haemagglutinin (HA) cleavage site as a DIVA antigen for the H7N9 virus. The results showed that the H7N9 virus infection sera and post-challenge sera obtained from H7N9-vaccinated chickens reacted with peptide 11, whereas the sera elicited by inactivated and viral-vectored H7N9 vaccines had no reactivity with this peptide. Peptide 11 was further split into two peptides at the HA cleavage site, and the truncated peptides failed to discriminate H7N9 infected and vaccinated chickens. Peptide 11 is located in a main surface loop in the HA protein, and contains highly conserved residues in the HA cleavage site among the H7N9 subtype and different subtypes of groups 1 and 2, suggesting the potential of this peptide as a broad DIVA antigen for influenza viruses. Our study highlighted that peptide 11 is a promising DIVA antigen, and serological tests based on this peptide may serve as useful tools for monitoring H7N9 virus infection in vaccinated poultry. RESEARCH HIGHLIGHTSThe epitope spanning the HA cleavage site is a potential DIVA antigen for H7N9 AIV.The epitope reacted with LP and HP H7N9 viruses.The epitope has potential as a broad DIVA antigen for influenza viruses.