Nucleoprotein phosphorylation site (Y385) mutation confers temperature sensitivity to influenza A virus due to impaired nucleoprotein oligomerization at a lower temperature.

Mutations in viral proteins can lead to the cold adaption of influenza A virus and the cold-adapted virus is an important vaccination instrument. Here, we identify a novel strain of influenza A virus with cold sensitivity conferred by a mutation at a phosphorylation site within the nucleoprotein (NP). The highly conserved tyrosine 385 residue (Y385) of NP was identified as a phosphorylation site by mass spectrometry. The constructive NP phosphorylation mimicked by Y385E mutation was fatal for virus replication, while the continuous Y385 dephosphorylation mimicked by Y385F mutation had little impact on virus replication in vitro. Notably, the Y385F virus showed much lower replicative capacity in turbinates of mice compared with the wild type virus. Moreover, the replication of Y385F virus was significantly reduced in both A549 and MDCK cells grown at 33°C, when compared to that at 37°C. These results indicated that the Y385F mutation led to cold sensitivity of virus. We further found that the cold sensitivity of Y385F virus could be attributed to diminished NP oligomerization rather than any changes in intracellular localization. Taken together, these findings suggest that the phosphorylation of NP may be a critical factor that regulates the temperature sensitivity of influenza A virus.