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- Title
Gallbladder carriage generates genetic variation and genome degradation in Salmonella Typhi.
- Authors
Thanh Duy, Pham; Thieu, Nga Tran Vu; Nguyen Thi Nguyen, To; Ngoc Dan Thanh, Ho; Dongol, Sabina; Karkey, Abhilasha; Carey, Megan; Basnyat, Buddha; Dougan, Gordon; Rabaa, Maia A.; Baker, Stephen
- Abstract
Despite recent advances in typhoid fever control, asymptomatic carriage of Salmonella Typhi in the gallbladder remains poorly understood. Aiming to understand if S. Typhi becomes genetically adapted for long-term colonisation in the gallbladder, we performed whole genome sequencing on a collection of S. Typhi isolated from the gallbladders of typhoid carriers. These sequences were compared to contemporaneously sampled sequences from organisms isolated from the blood of acute patients within the same population. We found that S. Typhi carriage was not restricted to any particular genotype or conformation of antimicrobial resistance genes, but was largely reflective of S. Typhi circulating in the general population. However, gallbladder isolates showed a higher genetic variability than acute isolates, with median pairwise SNP distances of 21 and 13 SNPs (p = 2.8x10-9), respectively. Within gallbladder isolates of the predominant H58 genotype, variation was associated with a higher prevalence of nonsense mutations. Notably, gallbladder isolates displayed a higher frequency of non-synonymous mutations in genes encoding hypothetical proteins, membrane lipoproteins, transport/binding proteins, surface antigens, and carbohydrate degradation. Specifically, we identified several gallbladder-specific non-synonymous mutations involved in LPS synthesis and modification, with some isolates lacking the Vi capsular polysaccharide vaccine target due to the 134Kb deletion of SPI-7. S. Typhi is under strong selective pressure in the human gallbladder, which may be reflected phylogenetically by long terminal branches that may distinguish organisms from chronic and acute infections. Our work shows that selective pressures asserted by the hostile environment of the human gallbladder generate new antigenic variants and raises questions regarding the role of carriage in the epidemiology of typhoid fever. Author summary: Salmonella Typhi is the bacterium that causes typhoid. Salmonella Typhi is infamous for being able to be carried in the gallbladder, with Typhoid Mary being the best-known example of a typhoid carrier. Despite having new tools for typhoid control, we have made little progress in understanding this disease process. Aiming to understand if Salmonella Typhi is adapted for long-term survival in the gallbladder, we sequenced the genomes of 24 Salmonella Typhi isolated from the gallbladders of typhoid carriers. We compared these genomes to Salmonella Typhi from acute typhoid patients within the same population. The carriage of Salmonella Typhi was not restricted to any specific genotype or resistance to antibiotics, but reflective of the organisms causing acute disease. However, gallbladder isolates had higher genetic variability than acute isolates, with a higher frequency of mutations changing the amino acid sequences of hypothetical proteins, membrane lipoproteins, transport/binding proteins, surface antigens, and carbohydrate degradation. We identified several gallbladder-specific mutations involved in polysaccharide synthesis on the bacterial surface. Our work shows that selective pressures asserted by the hostile environment of the human gallbladder generates genetic variation, which is not observed in acute isolates, raising questions regarding the role of carriage in the epidemiology of typhoid.
- Subjects
SALMONELLA typhi; TYPHOID fever; GALLBLADDER; AMINO acid sequence; GENETIC distance; DRUG resistance in microorganisms; GENETIC mutation; GENETIC variation
- Publication
PLoS Pathogens, 2020, Vol 16, Issue 10, p1
- ISSN
1553-7366
- Publication type
Article
- DOI
10.1371/journal.ppat.1008998