A 500-year tale of co-evolution, adaptation, and virulence: Helicobacter pylori in the Americas.
Zilia Y Muñoz-RamírezBen PascoeAlfonso Méndez-TenorioEvangelos MourkasSantiago Sandoval-MottaGuillermo Perez-PerezDouglas R MorganRicardo Leonel DominguezDiana Ortiz-PrinczMaria Eugenia CavazzaGifone Aguiar RochaDulcienne M M QueirozMariana CatalanoGerardo Zerbetto De PalmaCinthia G GoldmanAlejandro VenegasTeresa AlarconMónica OleastroFilipa F ValeKaren J GoodmanRoberto C TorresElvire BerthenetMatthew D HitchingsMartin J BlaserSamuel K SheppardKaisa ThorellJavier TorresPublished in: The ISME journal (2020)
Helicobacter pylori is a common component of the human stomach microbiota, possibly dating back to the speciation of Homo sapiens. A history of pathogen evolution in allopatry has led to the development of genetically distinct H. pylori subpopulations, associated with different human populations, and more recent admixture among H. pylori subpopulations can provide information about human migrations. However, little is known about the degree to which some H. pylori genes are conserved in the face of admixture, potentially indicating host adaptation, or how virulence genes spread among different populations. We analyzed H. pylori genomes from 14 countries in the Americas, strains from the Iberian Peninsula, and public genomes from Europe, Africa, and Asia, to investigate how admixture varies across different regions and gene families. Whole-genome analyses of 723 H. pylori strains from around the world showed evidence of frequent admixture in the American strains with a complex mosaic of contributions from H. pylori populations originating in the Americas as well as other continents. Despite the complex admixture, distinctive genomic fingerprints were identified for each region, revealing novel American H. pylori subpopulations. A pan-genome Fst analysis showed that variation in virulence genes had the strongest fixation in America, compared with non-American populations, and that much of the variation constituted non-synonymous substitutions in functional domains. Network analyses suggest that these virulence genes have followed unique evolutionary paths in the American populations, spreading into different genetic backgrounds, potentially contributing to the high risk of gastric cancer in the region.
Keyphrases
- helicobacter pylori
- escherichia coli
- genome wide
- endothelial cells
- pseudomonas aeruginosa
- staphylococcus aureus
- helicobacter pylori infection
- genome wide identification
- antimicrobial resistance
- biofilm formation
- copy number
- induced pluripotent stem cells
- pluripotent stem cells
- healthcare
- bioinformatics analysis
- transcription factor
- emergency department
- candida albicans
- drug induced
- organic matter