A phylogenetic analysis using full-length viral genomes of South American dengue serotype 3 in consecutive Venezuelan outbreaks reveals a novel NS5 mutation

Author(s)

Camacho, D.; Comach, G.; Xhaja, K.; Rizzolo, K.; de Bosch, N.; Becerra, A.; Mondini, A.; Ocazionez, R.; Bosch, Irene; Gehrke, Lee; Schmidt, D. J.; Pickett, B. E.; Lennon, N. J.; Nogueira, Mauricio Lacerda; da Silva, E. V.; Vasconcelos, P. F.; Munoz-Jordan, J. L.; Santiago, G. A.; Lefkowitz, E. J.; Birren, B. W.; Henn, M. R.; ... Show more Show less

Abstract

Dengue virus currently causes 50–100 million infections annually. Comprehensive knowledge about the evolution of Dengue in response to selection pressure is currently unavailable, but would greatly enhance vaccine design efforts. In the current study, we sequenced 187 new dengue virus serotype 3 (DENV-3) genotype III whole genomes isolated from Asia and the Americas. We analyzed them together with previously-sequenced isolates to gain a more detailed understanding of the evolutionary adaptations existing in this prevalent American serotype. In order to analyze the phylogenetic dynamics of DENV-3 during outbreak periods; we incorporated datasets of 48 and 11 sequences spanning two major outbreaks in Venezuela during 2001 and 2007–2008, respectively. Our phylogenetic analysis of newly sequenced viruses shows that subsets of genomes cluster primarily by geographic location, and secondarily by time of virus isolation. DENV-3 genotype III sequences from Asia are significantly divergent from those from the Americas due to their geographical separation and subsequent speciation. We measured amino acid variation for the E protein by calculating the Shannon entropy at each position between Asian and American genomes. We found a cluster of seven amino acid substitutions having high variability within E protein domain III, which has previously been implicated in serotype-specific neutralization escape mutants. No novel mutations were found in the E protein of sequences isolated during either Venezuelan outbreak. Shannon entropy analysis of the NS5 polymerase mature protein revealed that a G374E mutation, in a region that contributes to interferon resistance in other flaviviruses by interfering with JAK-STAT signaling was present in both the Asian and American sequences from the 2007–2008 Venezuelan outbreak, but was absent in the sequences from the 2001 Venezuelan outbreak. In addition to E, several NS5 amino acid changes were unique to the 2007–2008 epidemic in Venezuela and may give additional insight into the adaptive response of DENV-3 at the population level.

Date issued

2011-09

URI

http://hdl.handle.net/1721.1/102276

Department

Institute for Medical Engineering and Science

Journal

Infection, Genetics and Evolution

Publisher

Elsevier

Citation

Schmidt, D.J., B.E. Pickett, D. Camacho, G. Comach, K. Xhaja, N.J. Lennon, K. Rizzolo, et al. “A Phylogenetic Analysis Using Full-Length Viral Genomes of South American Dengue Serotype 3 in Consecutive Venezuelan Outbreaks Reveals a Novel NS5 Mutation.” Infection, Genetics and Evolution 11, no. 8 (December 2011): 2011–2019.

Version: Author's final manuscript

ISSN

15671348