@article {Thorell069070, author = {Kaisa Thorell and Koji Yahara and Elvire Berthenet and Daniel J. Lawson and Ikuko Kato and Alfonso Mendez and Federico Canzian and Mar{\'\i}a Mercedes Bravo and Rumiko Suzuki and Yoshio Yamaoka and Javier Torres and Samuel K Sheppard and Daniel Falush}, title = {Rapid evolution of distinct Helicobacter pylori subpopulations in the Americas}, elocation-id = {069070}, year = {2016}, doi = {10.1101/069070}, publisher = {Cold Spring Harbor Laboratory}, abstract = {For the last 500 years, the Americas have been a melting pot both for genetically diverse humans and for the pathogenic and commensal organisms associated with them. One such organism is the stomach dwelling bacterium Helicobacter pylori, which is highly prevalent in Latin America where it is a major current public health challenge because of its strong association with gastric cancer. By analyzing the genome sequence of H. pylori isolated in North, Central and South America, we found evidence for admixture between H. pylori of European and African origin throughout the Americas, without substantial input from pre-Columbian (hspAmerind) bacteria. In the US, strains of African and European origin have remained genetically distinct, while in Colombia and Nicaragua, bottlenecks and rampant genetic exchange amongst isolates have led to the formation of national gene pools. We found four outer membrane proteins with atypical levels of Asian ancestry in American strains, including the adhesion factor AlpB, suggesting a role for the ethnic makeup of hosts in the colonization of incoming strains. Our results show that new H. pylori subpopulations can rapidly arise, spread and adapt during times of demographic flux, and suggest that differences in transmission ecology between high and low prevalence areas may substantially affect the composition of bacterial populations.Author Summary Helicobacter pylori is one of the best studied examples of an intimate association between bacteria and humans, due to its ability to colonize the stomach for decades and to transmit from generation to generation. A number of studies have sought to link diversity in H. pylori to human migrations but there are some discordant signals such as an {\textquotedblleft}out of Africa{\textquotedblright} dispersal within the last few thousand years that has left a much stronger signal in bacterial genomes than in human ones. In order to understand how such discrepancies arise, we have investigated the evolution of H. pylori during the recent colonization of the Americas. We find that bacterial populations evolve quickly and can spread rapidly to people of different ethnicities. Distinct new bacterial subpopulations have formed in Colombia from a European source and in Nicaragua and the US from African sources. Genetic exchange between bacterial populations is rampant within Central and South America but is uncommon within North America, which may reflect differences in prevalence. Our results also suggest that adaptation of bacteria to particular human ethnic groups may be confined to a handful of genes involved in interaction with the immune system.}, URL = {https://www.biorxiv.org/content/early/2016/08/11/069070}, eprint = {https://www.biorxiv.org/content/early/2016/08/11/069070.full.pdf}, journal = {bioRxiv} }