In this study, we used imaging and proteomics to identify the presence of virus-associated cellular proteins that may play a role in respiratory syncytial virus (RSV) maturation. Fluorescence microscopy of virus-infected cells revealed the presence of virus-induced cytoplasmic inclusion bodies and mature virus particles, the latter appearing as virus filaments. In situ electron tomography suggested that the virus filaments were complex structures that were able to package multiple copies of the virus genome. The virus particles were purified, and the protein content was analyzed by one-dimensional nano-LC MS/ MS. In addition to all the major virus structural proteins, 25 cellular proteins were also detected, including proteins associated with the cortical actin network, energy pathways, and heat shock proteins (HSP70, HSC70, and HSP90). Representative actin-associated proteins, HSC70, and HSP90 were selected for further biological validation. The presence of -actin, filamin-1, cofilin-1, HSC70, and HSP90 in the virus preparation was confirmed by immunoblotting using relevant antibodies. Immunofluorescence microscopy of infected cells stained with antibodies against relevant virus and cellular proteins confirmed the presence of these cellular proteins in the virus filaments and inclusion bodies. The relevance of HSP90 to virus infection was examined using the specific inhibitors 17-N-Allylamino-17-demethoxygeldanamycin. Although virus protein expression was largely unaffected by these drugs, we noted that the formation of virus particles was inhibited, and virus transmission was impaired, suggesting an important role for HSP90 in virus maturation. This study highlights the utility of proteomics in facilitating both our understanding of the role that cellular proteins play during RSV maturation and, by extrapolation, the identification of new potential targets for antiviral therapy. Molecular & Cellular Proteomics 9:1829 -1848, 2010.
Respiratory syncytial virus (RSV)1 belongs to the paramyxovirus group of viruses, and it is the most important respiratory virus causing lower respiratory tract infection in young children and neonates. The mature RSV particle comprises a ribonucleoparticle (RNP) core formed by the interaction between the viral genomic RNA (vRNA), the nucleocapsid (N) protein (42 kDa), the phospho (P) protein (35 kDa), and the large (L) protein (250 kDa). The RNP core is visualized by electron microscopy as a strand of repeating N protein subunits that form a herringbone-like structure of ϳ10 -20 nm in diameter (1). Although the minimal functional polymerase activity requires an association between the N, P, and L proteins and the virus genome vRNA (2-4), additional viral proteins called the M2-1 protein (22 kDa), M2-2 protein, and M protein (28 kDa) regulate the activity of the polymerase (5-8). The virus is surrounded by a lipid envelope that is formed from the host cell during the budding process in which the three virus membrane proteins are inserted. The G protein (90 kDa) mediates attachment of...
