Author:
Osnes Magnus N,Brynildsrud Ola B,Alfsnes Kristian,van Dorp Lucy,McKeand Samantha A,Ross Jonathan,Town Katy,de Korne-Elenbaas Jolinda,van Dam Alje,Bruisten Sylvia,de Blasio Birgitte F,Caugant Dominique A,Grad Yonatan H.,Williamson Deborah A,Balloux Francois,Didelot Xavier,Eldholm Vegard
Abstract
AbstractNeisseria gonorrhoeaeis a globally distributed sexually transmitted bacterial pathogen. Recent studies have revealed that its evolution has been shaped by antibiotic use, while molecular surveillance efforts have demonstrated large changes in lineage composition over relatively short time-spans. However, the global population dynamics ofN. gonorrhoeaeremain unsatisfyingly characterized.To reconstruct recent large-scale population dynamics, we generated a dated phylogeny from 9,732N. gonorrhoeaegenomes and found the effective population size of the species to have expanded gradually over the past two centuries. While the effective population size of clades with reduced susceptibility to extended-spectrum cephalosporins started declining around 2010, a major clade containing a mosaicmtroperon associated with cephalosporin susceptibility and decreased azithromycin did not display any reduction in population size.Using ancestral trait reconstruction analyses, we delineated transmission lineages, defined as groups of sequences in which all the samples can be traced back to the same import event to a given location. Import, export and local transmission dynamics across two densely sampled locations (Norway and Victoria, Australia) were investigated in detail. Norway exhibited substantially higher rates of strain import and export compared to Victoria, where incidence was to a larger extent fuelled by locally transmitted lineages. Taken together, our work highlights the power of large-scale phylogenomic analyses to uncover the complex dynamics of lineage transmission inN. gonorrhoeae.
Publisher
Cold Spring Harbor Laboratory