Characterisation of a G2P[4] Rotavirus Outbreak in Western Australia, Predominantly Impacting Aboriginal Children

In May, 2017, an outbreak of rotavirus gastroenteritis was reported that predominantly impacted Aboriginal children <= 4 years of age in the Kimberley region of Western Australia. G2P[4] was identified as the dominant genotype circulating during this period and polyacrylamide gel electrophoresis revealed the majority of samples exhibited a conserved electropherotype. Full genome sequencing was performed on representative samples that exhibited the archetypal DS-1-like genome constellation: G2-P[4]-I2-R2-C2-M2-A2-N2-T2-E2-H2 and phylogenetic analysis revealed all genes of the outbreak samples were closely related to contemporary Japanese G2P[4] samples. The outbreak samples consistently fell within conserved sub-clades comprised of Hungarian and Australian G2P[4] samples from 2010. The 2017 outbreak variant was not closely related to G2P[4] variants associated with prior outbreaks in Aboriginal communities in the Northern Territory. When compared to the G2 component of the RotaTeq vaccine, the outbreak variant exhibited mutations in known antigenic regions; however, these mutations are frequently observed in contemporary G2P[4] strains. Despite the level of vaccine coverage achieved in Australia, outbreaks continue to occur in vaccinated populations, which pose challenges to regional areas and remote communities. Continued surveillance and characterisation of emerging variants are imperative to ensure the ongoing success of the rotavirus vaccination program in Australia.

Automated summary

In May 2017, an outbreak of rotavirus gastroenteritis primarily affecting Aboriginal children aged 4 and under occurred in the Kimberley region of Western Australia. The outbreak was caused by the G2P[4] genotype, with samples closely related to contemporary Japanese G2P[4] strains and forming a consistent sub-clade with Hungarian and Australian G2P[4] samples from 2010. Despite high vaccine coverage in Australia, the outbreak variant displayed mutations in antigenic regions and challenges remain in controlling outbreaks in vaccinated populations. Continued surveillance and characterization of emerging variants are crucial for the success of the rotavirus vaccination program in Australia.