AI Article Synopsis
- Vaccination with attenuated viruses offers long-lasting protection against viral infections, but creating stable vaccine strains has been largely empirical, limiting options.
- A new method has been developed to engineer these stable vaccine strains by restricting viral diversity, which significantly reduces both tissue tropism and pathogenicity.
- The study shows that poliovirus variants with less genetic diversity provoke a strong immune response in animals and are just as effective as current vaccines while being less likely to revert to harmful forms.
Article Abstract
Long-lasting protection against viral infection is best achieved by vaccination with attenuated viruses. Obtaining stably attenuated vaccine strains has traditionally been an empirical process, which greatly restricts the number of effective vaccines for viral diseases. Here we describe a rational approach for engineering stably attenuated viruses that can serve as safe and effective vaccines. Our approach exploits the observation that restricting viral population diversity by increasing replication fidelity greatly reduces viral tissue tropism and pathogenicity. We show that poliovirus variants with reduced genetic diversity elicit a protective immune response in an animal model of infection. Indeed, these novel vaccine candidates are comparable in efficacy to the currently available Sabin type 1 vaccine strain, but have the added advantage of being more stable, as their increased replication fidelity prevents reversion to the pathogenic wild-type phenotype. We propose that restricting viral quasispecies diversity provides a general approach for the rational design of stable, attenuated vaccines for a wide variety of viruses.
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| http://dx.doi.org/10.1038/nm1726 | DOI Listing |
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