Abstract
BackgroundOral rotavirus vaccine (RVV) immunogenicity is considerably lower in low- versus high-income populations; however, the mechanisms underlying this remain unclear. Previous evidence suggests that the gut microbiota may contribute to differences in oral vaccine efficacy. MethodsWe performed whole metagenome shotgun sequencing on stool samples and measured anti-rotavirus immunoglobulin A in plasma samples from a subset of infants enrolled in a cluster randomized 2 × 2 factorial trial of improved water, sanitation and hygiene and infant feeding in rural Zimbabwe (SHINE trial: NCT01824940). We examined taxonomic microbiome composition and functional metagenome features using random forest models, differential abundance testing and regression analyses to explored associations with RVV immunogenicity. ResultsAmong 158 infants with stool samples and anti-rotavirus IgA titres, 34 were RVV seroconverters. The median age at stool collection was 43 days (IQR: 35–68), corresponding to a median of 4 days before the first RVV dose. The infant microbiome was dominated by Bifidobacterium longum. The gut microbiome differed significantly between early (≤42 days) and later samples (>42 days) however, we observed no meaningful differences in alpha diversity, beta diversity, species composition or functional metagenomic features by RVV seroconversion status. Bacteroides thetaiotaomicron was the only species associated with anti-rotavirus IgA titre. Random forest models poorly classified seroconversion status by both composition and functional microbiome variables. ConclusionsRVV immunogenicity is low in this rural Zimbabwean setting, however it was not associated with the composition or function of the early-life gut microbiome in this study. Further research is warranted to examine the mechanisms of poor oral RVV efficacy in low-income countries.
Highlights
Oral rotavirus vaccine (RVV) immunogenicity is considerably lower in low- versus highincome populations; the mechanisms underlying this remain unclear
The WASH intervention had no effect on enteropathogen carriage [21] and enteropathogen burden was not associated with rotavirus vaccines (RVV) immunogenicity [22]. In this follow-on study, we explore whether alterations in the composition of the fecal microbiome are associated with RVV immunogenicity, by conducting whole metagenome shotgun sequencing of stool samples from infants around the time of RVV
A large multi-country study reported that gut microbiota alpha diversity, as assessed using 16S amplicon sequencing, was negatively correlated with RVV immunogenicity in Malawi and India, no differences were observed in taxonomic composition between seroconverters and non-seroconverters [35]
Summary
Oral rotavirus vaccine (RVV) immunogenicity is considerably lower in low- versus highincome populations; the mechanisms underlying this remain unclear. We examined taxonomic microbiome composition and functional metagenome features using random forest models, differential abundance testing and regression analyses to explored associations with RVV immunogenicity. Results: Among 158 infants with stool samples and anti-rotavirus IgA titres, 34 were RVV seroconverters. The gut microbiome differed significantly between early ( 42 days) and later samples (>42 days) we observed no meaningful differences in alpha diversity, beta diversity, species composition or functional metagenomic features by RVV seroconversion status. Random forest models poorly classified seroconversion status by both composition and functional microbiome variables. Conclusions: RVV immunogenicity is low in this rural Zimbabwean setting, it was not associated with the composition or function of the early-life gut microbiome in this study.
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