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Exploratory re-encoding of yellow fever virus genome: new insights for the design of live-attenuated viruses
- Source :
- Virus Evolution
- Publication Year :
- 2018
- Publisher :
- Oxford University Press, 2018.
-
Abstract
- Virus attenuation by genome re-encoding is a pioneering approach for generating effective live-attenuated vaccine candidates. Its core principle is to introduce a large number of synonymous substitutions into the viral genome to produce stable attenuation of the targeted virus. Introduction of large numbers of mutations has also been shown to maintain stability of the attenuated phenotype by lowering the risk of reversion and recombination of re-encoded genomes. Identifying mutations with low fitness cost is pivotal as this increases the number that can be introduced and generates more stable and attenuated viruses. Here, we sought to identify mutations with low deleterious impact on thein vivoreplication and virulence of yellow fever virus (YFV). Following comparative bioinformatic analyses of flaviviral genomes, we categorized synonymous transition mutations according to their impact on CpG/UpA composition and secondary RNA structures. We then designed 17 re-encoded viruses with 100-400 synonymous mutations in the NS2A-to-NS4B coding region of YFVAsibiandAp7M(hamster-adapted) genomes. Each virus contained a panel of synonymous mutations designed according to the above categorisation criteria. The replication and fitness characteristics of parent and re-encoded viruses were comparedin vitrousing cell culture competition experiments.In vivolaboratory hamster models were also used to compare relative virulence and immunogenicity characteristics. Most of the re-encoded strains showed no decrease in replicative fitnessin vitro. However, they showed reduced virulence and, in some instances, decreased replicative fitnessin vivo. Importantly, the most attenuated of the re-encoded strains induced robust, protective immunity in hamsters following challenge withAp7M, a virulent virus. Overall, the introduction of transitions with no or a marginal increase in the number of CpG/UpA dinucleotides had the mildest impact on YFV replication and virulencein vivo. Thus, this strategy can be incorporated in procedures for the finely tuned creation of substantially re-encoded viral genomes.
- Subjects :
- 0301 basic medicine
030106 microbiology
Virulence
Biology
Microbiology
Genome
Virus
03 medical and health sciences
Virology
Coding region
attenuation
030304 developmental biology
Subgenomic mRNA
yellow fever virus
Whole genome sequencing
Genetics
0303 health sciences
genome re-encoding
030306 microbiology
Flavivirus
RNA virus
biology.organism_classification
Phenotype
3. Good health
030104 developmental biology
CpG site
Synonymous substitution
Research Article
Subjects
Details
- Language :
- English
- ISSN :
- 20571577
- Volume :
- 4
- Issue :
- 2
- Database :
- OpenAIRE
- Journal :
- Virus Evolution
- Accession number :
- edsair.doi.dedup.....b43ec97966411c5564870fb1a28443cd