Emergence of Double- and Triple-Gene Reassortant G1P[8]Rotaviruses Possessing a DS-1-Like Backbone after RotavirusVaccine Introduction in Malawi



Jere, Khuzwayo C ORCID: 0000-0003-3376-8529, Chaguza, Chrispin ORCID: 0000-0002-2108-1757, Bar-Zeev, Naor ORCID: 0000-0003-0570-4624, Lowe, Jenna, Peno, Chikondi, Kumwenda, Benjamin, Nakagomi, Osamu, Tate, Jacqueline E, Parashar, Umesh D, Heyderman, Robert S
et al (show 3 more authors) (2017) Emergence of Double- and Triple-Gene Reassortant G1P[8]Rotaviruses Possessing a DS-1-Like Backbone after RotavirusVaccine Introduction in Malawi. Journal of virology, 92 (3).

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Abstract

To combat the high burden of rotavirus gastroenteritis, multiple African countries have introduced rotavirus vaccines into their childhood immunisation programmes. Malawi incorporated a G1P[8] rotavirus vaccine (Rotarix™) into its immunisation schedule in 2012. Utilising a surveillance platform of hospitalised rotavirus gastroenteritis cases, we examined the phylodynamics of G1P[8] rotavirus strains that circulated in Malawi before (1998 - 2012) and after (2013 - 2014) vaccine introduction. Analysis of whole genomes obtained through next generation sequencing revealed that all randomly-selected pre-vaccine G1P[8] strains sequenced (n=32) possessed a Wa-like genetic constellation, whereas post-vaccine G1P[8] strains (n=18) had a DS-1-like constellation. Phylodynamic analyses indicated that post-vaccine G1P[8] strains emerged through reassortment events between human Wa- and DS-1-like rotaviruses that circulated in Malawi from the 1990's, hence classified as atypical DS-1-like reassortants. The time to the most recent common ancestor for G1P[8] strains was from 1981-1994; their evolutionary rates ranged from 9.7 x 10(-4)-4.1 x 10(-3) nucleotide/substitutions/site/year. Three distinct G1P[8] lineages chronologically replaced each other between 1998 and 2014. Genetic drift was the likely driver for lineage turnover in 2005, whereas replacement in 2013 was due to reassortment. Amino acid substitution within the outer glycoprotein VP7 of G1P[8] strains had no impact on the structural conformation of the antigenic regions, suggesting that it is unlikely that they would affect recognition by vaccine-induced neutralizing antibodies. While the emergence of DS-1-like G1P[8] rotavirus reassortants in Malawi was therefore likely due to natural genotype variation, vaccine effectiveness against such strains needs careful evaluation.ImportanceThe error-prone RNA-dependent RNA polymerase and the segmented RNA genome predispose rotaviruses to genetic mutation and genome reassortment, respectively. These evolutionary mechanisms generate novel strains and have the potential to lead to the emergence of vaccine-escape mutants. While multiple African countries have introduced rotavirus vaccine, there are few data describing the evolution of rotaviruses that circulated before and after vaccine introduction. We report the emergence of atypical DS-1-like G1P[8] strains during the post-vaccine era in Malawi. Three distinct G1P[8] lineages circulated chronologically from 1998-2014; mutation and reassortment drove lineage turnover in 2005 and 2013, respectively. Amino acid substitutions within the outer capsid VP7 glycoprotein did not affect the structural conformation of mapped antigenic sites, suggesting limited effect in recognition of G1 specific vaccine-derived antibodies. The genes that constitute the remaining genetic backbone may play important roles in immune evasion, and vaccine effectiveness against such atypical strains needs careful evaluation.

Item Type: Article
Additional Information: for the VACSURV Consortium
Uncontrolled Keywords: rotavirus, phylodynamics, genome reassortment, lineage turnover, whole-genome sequencing, Malawi
Depositing User: Symplectic Admin
Date Deposited: 10 Jan 2018 14:59
Last Modified: 05 Sep 2022 14:11
DOI: 10.1128/jvi.01246-17
Open Access URL: http://jvi.asm.org/content/early/2017/11/09/JVI.01...
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URI: https://livrepository.liverpool.ac.uk/id/eprint/3015798

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