Author:
Sikorski Michael J.,Hazen Tracy H.,Desai Sachin N.,Nimarota-Brown Susana,Tupua Siaosi,Sialeipata Michelle,Rambocus Savitra,Ingle Danielle J.,Duchene Sebastian,Ballard Susan A.,Valcanis Mary,Zufan Sara,Ma Jianguo,Sahl Jason W.,Maes Mailis,Dougan Gordon,Thomsen Robert E.,Robins-Browne Roy M.,Howden Benjamin P.,Naseri Take K.,Levine Myron M.,Rasko David A.
Abstract
ABSTRACTFor decades, the remote island nation of Samoa (pop. ~200,000) has faced endemic typhoid fever despite improvements in water quality, sanitation, and economic development. We recently described the epidemiology of typhoid fever in Samoa from 2008-2019 by person, place, and time; however, the local Salmonella enterica serovar Typhi (S. Typhi) population structure, evolutionary origins, and genomic features remained unknown. Herein, we report whole genome sequence analyses of 306 S. Typhi isolates from Samoa collected between 1983 and 2020. Phylogenetics revealed a dominant population of rare genotypes 3.5.4 and 3.5.3, together comprising 292/306 (95.4%) of Samoan versus 2/4934 (0.04%) global S. Typhi isolates. Three distinct 3.5.4 genomic sub-lineages were identified and their defining polymorphisms were determined. These dominant Samoan genotypes, which likely emerged in the 1970s, share ancestry with other clade 3.5 isolates from South America, Southeast Asia, and Oceania. Additionally, a 106-kb pHCM2 phenotypically-cryptic plasmid, detected earliest in a 1992 Samoan S. Typhi isolate, was identified in 106/306 (34.6%) of Samoan isolates; this is more than double the observed proportion of pHCM2-containing isolates in the global collection. In stark contrast with global S. Typhi trends, resistance-conferring polymorphisms were detected in only 15/306 (4.9%) of Samoan S. Typhi, indicating overwhelming susceptibility to antibiotics that are no longer effective in most of South and Southeast Asia. This country-level genomic framework can help local health authorities in their ongoing typhoid surveillance and control efforts, as well as to fill a critical knowledge gap in S. Typhi genomic data from Oceania.IMPORTANCEIn this study we used whole genome sequencing and comparative genomics analyses to characterize the population structure, evolutionary origins, and genomic features of S. Typhi associated with decades of endemic typhoid fever in Samoa. Our analyses of Samoan isolates from 1983 to 2020 identified a rare S. Typhi population in Samoa that likely emerged around the early 1970s and evolved into sub-lineages that presently dominate. The dominance and persistence of these endemic genotypes in Samoa are not readily explained by any apparent genomic competitive advantage or widespread acquisition of antimicrobial resistance. These data establish the necessary framework for future genomic surveillance of S. Typhi in Samoa for public health benefit.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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