Abstract
Human metapneumovirus (HMPV) is a negative-strand RNA virus that frequently causes respiratory tract infections in infants, the elderly, and the immunocompromised. A hallmark of HMPV infection is the formation of membraneless, liquid-like replication and transcription centers in the cytosol termed inclusion bodies (IBs). The HMPV phosphoprotein (P) and nucleoprotein (N) are the minimal viral proteins necessary to form IB-like structures, and both proteins are required for the viral polymerase to synthesize RNA during infection. HMPV P is a homotetramer with regions of intrinsic disorder and has several known and predicted phosphorylation sites of unknown function. In this study, we found that the P C-terminal intrinsically disordered domain (CTD) must be present to facilitate IB formation with HMPV N, while either the N-terminal intrinsically disordered domain or the central oligomerization domain was dispensable. Alanine substitution at a single tyrosine residue within the CTD abrogated IB formation and reduced coimmunoprecipitation with HMPV N. Mutations to C-terminal phosphorylation sites revealed a potential role for phosphorylation in regulating RNA synthesis and P binding partners within IBs. Phosphorylation mutations which reduced RNA synthesis in a reporter assay produced comparable results in a recombinant viral rescue system, measured as an inability to produce infectious viral particles with genomes containing these single P mutations. This work highlights the critical role HMPV P plays in facilitating a key step of the viral life cycle and reveals the potential role for phosphorylation in regulating the function of this significant viral protein. IMPORTANCE Human metapneumovirus (HMPV) infects global populations, with severe respiratory tract infections occurring in infants, the elderly, and the immunocompromised. There are currently no FDA-approved therapeutics available to prevent or treat HMPV infection. Therefore, understanding how HMPV replicates is vital for the identification of novel targets for therapeutic development. During HMPV infection, viral RNA synthesis proteins localize to membraneless structures called inclusion bodies (IBs), which are sites of genome replication and transcription. The HMPV phosphoprotein (P) is necessary for IBs to form and for the virus to synthesize RNA, but it is not known how this protein contributes to IB formation or if it is capable of regulating viral replication. We show that the C-terminal domain of P is the location of a molecular interaction driving IB formation and contains potential phosphorylation sites where amino acid charge regulates the function of the viral polymerase complex.