Pre-assembly of biomolecular condensate seeds drives RSV replication

During infection many RNA viruses, including respiratory syncytial virus (RSV), form specialized biomolecular condensates, inclusion bodies (IBs), where viral transcription and replication occur ^1–4 . Paradoxically, high protein concentrations are typically required for condensate nucleation ⁵ , yet attaining sufficient protein levels in infection is thought to require IBs for viral transcription and replication. To uncover how viruses solve this paradox to establish IBs, we visualized early infection of RSV in real-time with single genomic viral ribonucleoprotein (vRNP) resolution. Our results reveal that IBs are nucleated from infecting vRNPs rather than de novo in the cytoplasm. IB nucleation further requires in-virion pre-assembly of viral protein-protein interaction networks on vRNPs to form ‘pre-replication centers’ (PRCs). PRCs are potent condensate nucleation seeds due to their resistance to disassembly and efficient recruitment of newly-synthesized viral proteins. The high protein affinity of PRCs also results in increased polymerase complex association, allowing efficient viral transcription even in the absence of IBs. Together, these activities create a feed-forward loop that drives rapid IB formation. Intriguingly, PRC assembly depends on in-virion viral protein levels and is highly heterogeneous among virions, explaining cell-to-cell heterogeneity in infection progression, and identifying heterogeneous virions as the origin of infection heterogeneity. Together, our results show that in-virion pre-assembly of PRCs kick-starts viral condensate nucleation upon host-cell entry, and explains cell-to-cell heterogeneity in RSV infection.