Abstract
Developing widely used respiratory syncytial virus (RSV) vaccines remains a significant challenge, despite the recent authorization of two pre-F vaccines for elderly adults. Previous reports have suggested that even when vaccine-induced immunity generates high titers of potent neutralizing antibodies targeting the pre-F protein, it may not fully inhibit breakthrough of RSV infections. This incomplete inhibition of RSV breakthrough infections can lead to an increased risk of enhanced respiratory disease (ERD) in vaccinated individuals. The reasons why potent neutralizing antibodies cannot fully prevent RSV breakthrough infections are not yet clear. In an attempt to explain this phenomenon, we investigated the effect of potent neutralizing antibodies on the intercellular spread of RSV. Our findings indicated that a specific titer of potent neutralizing antibodies, such as 5C4, could block certain modes of intercellular spread, such as the diffusion of cell-free virions and the delivery of virions through filopodia. However, these antibodies did not fully inhibit the entire process of intercellular spread. Through the use of super-resolution imaging techniques, we observed a novel and efficient spread mode called the transition of viral materials through intercellular nanotubes (TVMIN), independent of virions and insensitive to the presence of antibodies. TVMIN allowed RSV-infected cells to directly transfer viral materials to neighboring cells via intercellular nanotubes that are rich in microfilaments. TVMIN began as early as 5 h post-infection (h.p.i.) and rapidly initiated infection in recipient cells. Our data provided new insights into the intercellular spread of RSV and might help explain the occurrence of breakthrough infections.
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