The highly pathogenic avian influenza H5N8 sublineage 2.3.4.4b virus: A critical analysis of genetic steadiness based on full HA gene sequencing in Egypt

Abstract

The highly pathogenic avian influenza virus (HPAIV) continues to be a significant threat to the poultry industry despite the implementation of vaccination programs. The main goal of this study was to explore the incidence of avian influenza viruses (AIVs) and the stability of the hemagglutinating (HA) gene sequence. For this drive, oropharyngeal swabs (n=425) were collected from various wild and domesticated bird species from 13 provinces in Egypt from 2019 to 2021. Viral isolation in specific pathogen-free chicken embryos revealed positive HA activity in 9.88% (n=32) of the wild and 36.37% (n=64) of domesticated species. Only eight H5N8 avian influenza viruses were delivered (4/each category) in mixed infection with Newcastle disease virus (NDV). Clinically, domesticated examined birds exhibited clinical findings suggesting avian influenza, but AIVs were delivered from both apparently healthy and sick wild birds. A/chicken-cobb/Egypt/55/2019(H5N8) sequence generated in this study has been submitted to GenBank under the accession number ON724339, and its in vivo pathogenicity was evaluated in four-week-old chickens, which revealed 90% mortality and typical clinical findings of HPAIV. Based on the full HA gene sequence, the strain has a Furin-sensitive cleavage site in the HA protein, which is an HPAIV. It has been clustered in clade 2.3.4.4b within AIVs from 2016 to 2023 and coexistence of genetically stable viruses 2016-2019 with 99.8-100% similarity. The existing strain is fully identical to three strains: A/green-winged teal/Egypt/877/2016(H5N8), A/northern shoveler/Egypt/MB-D-816OP/2016(H5N8), and A/duck/Egypt/N13736E/2017 (H5N8), with the only point of mutation at position 284 (G284E). In our analysis, the majority of H5NX AIV strains detected in Egypt since 2016 possessed 156T. As a result, there is evidence suggesting that H5N8 has been introduced sequentially through the migration of European wild birds along the Black Sea–Mediterranean and East Asia–West Africa flyways. This raises the possibility of future adaptation to mammals due to spillover from avian-origin strains, especially in native aquatic birds such as geese and ducks.