Abstract
H9N2 avian influenza viruses (AIVs) circulate in poultry throughout much of Asia, the Middle East, and Africa. These viruses cause huge economic damage to poultry production systems and pose a zoonotic threat both in their own right and in the generation of novel zoonotic viruses, for example, H7N9. In recent years, it has been observed that H9N2 viruses have further adapted to gallinaceous poultry, becoming more highly transmissible and causing higher morbidity and mortality. Here, we investigate the molecular basis for this increased virulence, comparing a virus from the 1990s and a contemporary field strain. The modern virus replicated to higher titers in various systems, and this difference mapped to a single amino acid polymorphism at position 26 of the endonuclease domain shared by the PA and PA-X proteins. This change was responsible for increased replication and higher morbidity and mortality rates along with extended tissue tropism seen in chickens. Although the PA K26E change correlated with increased host cell shutoff activity of the PA-X protein in vitro, it could not be overridden by frameshift site mutations that block PA-X expression and therefore increased PA-X activity could not explain the differences in replication phenotype. Instead, this indicates that these differences are due to subtle effects on PA function. This work gives insight into the ongoing evolution and poultry adaptation of H9N2 and other avian influenza viruses and helps us understand the striking morbidity and mortality rates in the field, as well as the rapidly expanding geographical range seen in these viruses.IMPORTANCE Avian influenza viruses, such as H9N2, cause huge economic damage to poultry production worldwide and are additionally considered potential pandemic threats. Understanding how these viruses evolve in their natural hosts is key to effective control strategies. In the Middle East and South Asia, an older H9N2 virus strain has been replaced by a new reassortant strain with greater fitness. Here, we take representative viruses and investigate the genetic basis for this "fitness." A single mutation in the virus was responsible for greater fitness, enabling high growth of the contemporary H9N2 virus in cells, as well as in chickens. The genetic mutation that modulates this change is within the viral PA protein, a part of the virus polymerase gene that contributes to viral replication as well as to virus accessory functions-however, we find that the fitness effect is specifically due to changes in the protein polymerase activity.
Highlights
H9N2 avian influenza viruses (AIVs) circulate in poultry throughout much of Asia, the Middle East, and Africa
We generated a panel of reciprocal reassortant viruses between the full reverse genetics systems of WF10, a virus representing G1-lineage H9N2 AIVs that circulated in the late 1990s, and UDL-01, representative of a novel reassortant G1-lineage H9N2 with genes from several previously enzootic G1-lineage H9N2 viruses and highpathogenicity AIV (HPAIV) H7N3 viruses
Changes at this residue did not affect virus polymerase activity, they did cause reciprocal differences in replicative fitness in both mammalian and avian systems, in cell lines, primary cells, and embryonated eggs, as well as in vivo, in chickens. We found that these mutations strongly affected the shutoff activity of the accessory protein PA-C X-open reading frame (ORF) (PA-X), this did not explain the differences in in vitro virus replication phenotype, indicating that it is likely that differences in PA function are partially or fully responsible for this
Summary
H9N2 avian influenza viruses (AIVs) circulate in poultry throughout much of Asia, the Middle East, and Africa. The modern virus replicated to higher titers in various systems, and this difference mapped to a single amino acid polymorphism at position 26 of the endonuclease domain shared by the PA and PA-X proteins This change was responsible for increased replication and higher morbidity and mortality rates along with extended tissue tropism seen in chickens. H9N2 avian influenza viruses (AIVs) are low-pathogenicity avian influenza (LPAI) viruses that are enzootic in poultry in many countries across Asia, Africa, and the Middle East [3,4,5,6] In afflicted countries they cause a constant burden on poultry production systems through mortality, often associated with coinfection, or through morbidity that leads to reduced egg production and bird growth rates [7,8,9]. They pose a zoonotic risk, as evidenced by over 60 confirmed cases of human infection, with over half of those occurring since 2015 [6]
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