Abstract
Respiratory syncytial virus (RSV) is the leading cause of severe respiratory tract infection in infants and young children, but no vaccine is currently available. Live-attenuated vaccines represent an attractive immunization approach; however, balancing attenuation while retaining sufficient immunogenicity and efficacy has prevented the successful development of such a vaccine. Recently, a recombinant RSV strain lacking the gene that encodes the matrix (M) protein (RSV M-null) was developed. The M protein is required for virion assembly following infection of a host cell but is not necessary for either genome replication or gene expression. Therefore, infection with RSV M-null produces all viral proteins except M but does not generate infectious virus progeny, resulting in a single-cycle infection. We evaluated RSV M-null as a potential vaccine candidate by determining its pathogenicity, immunogenicity, and protective capacity in BALB/c mice compared with its recombinant wild-type control virus (RSV recWT). RSV M-null-infected mice exhibited significantly reduced lung viral titers, weight loss, and pulmonary dysfunction compared with mice infected with RSV recWT. Despite its attenuation, RSV M-null infection induced robust immune responses of similar magnitude to that elicited by RSV recWT. Additionally, RSV M-null infection generated serum Ab and memory T cell responses that were similar to those induced by RSV recWT. Importantly, RSV M-null immunization provided protection against secondary viral challenge by reducing lung viral titers as efficiently as immunization with RSV recWT. Overall, our results indicate that RSV M-null combines attenuation with high immunogenicity and efficacy and represents a promising novel live-attenuated RSV vaccine candidate.
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