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Multiple phylogenetically-diverse, differentially-virulent Burkholderia pseudomallei isolated from a single soil sample collected in Thailand.

Authors :
Roe, Chandler
Vazquez, Adam J.
Phillips, Paul D.
Allender, Chris J.
Bowen, Richard A.
Nottingham, Roxanne D.
Doyle, Adina
Wongsuwan, Gumphol
Wuthiekanun, Vanaporn
Limmathurotsakul, Direk
Peacock, Sharon
Keim, Paul
Tuanyok, Apichai
Wagner, David M.
Sahl, Jason W.
Source :
PLoS Neglected Tropical Diseases; 2/10/2022, Vol. 16 Issue 2, p1-21, 21p
Publication Year :
2022

Abstract

Burkholderia pseudomallei is a soil-dwelling bacterium endemic to Southeast Asia and northern Australia that causes the disease, melioidosis. Although the global genomic diversity of clinical B. pseudomallei isolates has been investigated, there is limited understanding of its genomic diversity across small geographic scales, especially in soil. In this study, we obtained 288 B. pseudomallei isolates from a single soil sample (~100g; intensive site 2, INT2) collected at a depth of 30cm from a site in Ubon Ratchathani Province, Thailand. We sequenced the genomes of 169 of these isolates that represent 7 distinct sequence types (STs), including a new ST (ST1820), based on multi-locus sequence typing (MLST) analysis. A core genome SNP phylogeny demonstrated that all identified STs share a recent common ancestor that diverged an estimated 796–1260 years ago. A pan-genomics analysis demonstrated recombination between clades and intra-MLST phylogenetic and gene differences. To identify potential differential virulence between STs, groups of BALB/c mice (5 mice/isolate) were challenged via subcutaneous injection (500 CFUs) with 30 INT2 isolates representing 5 different STs; over the 21-day experiment, eight isolates killed all mice, 2 isolates killed an intermediate number of mice (1–2), and 20 isolates killed no mice. Although the virulence results were largely stratified by ST, one virulent isolate and six attenuated isolates were from the same ST (ST1005), suggesting that variably conserved genomic regions may contribute to virulence. Genomes from the animal-challenged isolates were subjected to a bacterial genome-wide association study to identify genomic regions associated with differential virulence. One associated region is a unique variant of Hcp1, a component of the type VI secretion system, which may result in attenuation. The results of this study have implications for comprehensive sampling strategies, environmental exposure risk assessment, and understanding recombination and differential virulence in B. pseudomallei. Author summary: Burkholderia pseudomallei is the causative agent of melioidosis, a disease endemic to Southeast Asia and northern Australia. The evaluation of diversity within B. pseudomallei has largely been conducted utilizing clinical isolates despite almost all infections emerging from environmental exposure. In this study, we surveyed the genomic diversity of 169 isolates collected from a single soil sample in Ubon Ratchathani Province, Thailand. Seven different sequence types were identified, and substantial within-sequence-type gene diversity was observed. To test for differential virulence, 30 isolates were challenged in a mouse melioidosis model. A small number of isolates killed all mice, but most killed none, demonstrating the variable virulence potential of different B. pseudomallei isolates present in the single sample. A comparative genomics analysis identified multiple genes associated with virulence, including Hcp1, a component of the type VI secretion system and a known virulence factor. The results of this study have implications for the comprehensive environmental surveillance, environmental exposure, and differential virulence of B. pseudomallei. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
19352727
Volume :
16
Issue :
2
Database :
Complementary Index
Journal :
PLoS Neglected Tropical Diseases
Publication Type :
Academic Journal
Accession number :
155178433
Full Text :
https://doi.org/10.1371/journal.pntd.0010172