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Zheng, Weinan; Li, Jing; Wang, Shanshan; Cao, Shuaishuai; Jiang, Jingwen; Chen, Can; Ding, Chan; Qin, Chuan; Ye, Xin; Gao, George F; Liu, Wenjun
Journal of virology, 06/2015, Volume: 89, Issue: 11Journal Article
The nucleoprotein (NP) is a major component of the viral ribonucleoprotein (vRNP) complex. During the replication of influenza virus, the vRNP complex undergoes nuclear-cytoplasmic shuttling, during which NP serves as one of the determinants. To date, many phosphorylation sites on NP have been identified, but the biological functions of many of these phosphorylation sites remain unknown. In the present study, the functions of the phosphorylation sites S9, Y10, and Y296 were characterized. These residues are highly conserved, and their phosphorylation was essential for virus growth in cell culture and in a mouse model by regulating the activity of the viral polymerase and the nuclear-cytoplasmic shuttling of NP. The phosphorylation and dephosphorylation of S9 and Y10 controlled nuclear import of NP by affecting the binding affinity between NP and different isoforms of importin-α. In addition, the phosphorylation of Y296 caused nuclear retention of NP by reducing the interaction between NP and CRM1. Furthermore, tyrosine phosphorylation of NP during the early stage of virus infection was ablated when Y296 was mutated to F. However, at later stages of infection, it was weakened by the Y10F mutation. Taken together, the present data indicate that the phosphorylation and dephosphorylation of NP control the shuttling of NP between the nucleus and the cytoplasm during virus replication. It is well known that phosphorylation regulates the functions of viral proteins and the life cycle of influenza A virus. As NP is the most abundant protein in the vRNP complex of influenza A virus, several phosphorylation sites on this protein have been identified. However, the functions of these phosphorylation sites were unknown. The present study demonstrates that the phosphorylation status of these sites on NP can mediate its nuclear-cytoplasmic shuttling, which drives the trafficking of vRNP complexes in infected cells. The present data suggest that the phosphorylated residues of NP are multistep controllers of the virus life cycle and new targets for the design of anti-influenza drugs.
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