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Live attenuated influenza virus vaccines by computer-aided rational design.


ABSTRACT: Despite existing vaccines and enormous efforts in biomedical research, influenza annually claims 250,000-500,000 lives worldwide, motivating the search for new, more effective vaccines that can be rapidly designed and easily produced. We applied the previously described synthetic attenuated virus engineering (SAVE) approach to influenza virus strain A/PR/8/34 to rationally design live attenuated influenza virus vaccine candidates through genome-scale changes in codon-pair bias. As attenuation is based on many hundreds of nucleotide changes across the viral genome, reversion of the attenuated variant to a virulent form is unlikely. Immunization of mice by a single intranasal exposure to codon pair-deoptimized virus conferred protection against subsequent challenge with wild-type (WT) influenza virus. The method can be applied rapidly to any emerging influenza virus in its entirety, an advantage that is especially relevant when dealing with seasonal epidemics and pandemic threats, such as H5N1- or 2009-H1N1 influenza.

SUBMITTER: Mueller S 

PROVIDER: S-EPMC2902615 | biostudies-literature | 2010 Jul

REPOSITORIES: biostudies-literature

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Live attenuated influenza virus vaccines by computer-aided rational design.

Mueller Steffen S   Coleman J Robert JR   Papamichail Dimitris D   Ward Charles B CB   Nimnual Anjaruwee A   Futcher Bruce B   Skiena Steven S   Wimmer Eckard E  

Nature biotechnology 20100613 7


Despite existing vaccines and enormous efforts in biomedical research, influenza annually claims 250,000-500,000 lives worldwide, motivating the search for new, more effective vaccines that can be rapidly designed and easily produced. We applied the previously described synthetic attenuated virus engineering (SAVE) approach to influenza virus strain A/PR/8/34 to rationally design live attenuated influenza virus vaccine candidates through genome-scale changes in codon-pair bias. As attenuation is  ...[more]

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