The role of interspecies recombination in the evolution of antibiotic-resistant pneumococci (SCOPUS)

Citation

D’Aeth, Joshua C., Van der Linden, Mark PG., McGee, Lesley, De Lencastre, Herminia, Turner, Paul, Song, Jae-Hoon … Srifuengfung S. (2021). The role of interspecies recombination in the evolution of antibiotic-resistant pneumococci. eLife , 10(e67113), 1-35.

ABSTRACT

Multidrug-resistant Streptococcus pneumoniae emerge through the modification of core genome loci by interspecies homologous recombinations, and acquisition of gene cassettes. Both occurred in the otherwise contrasting histories of the antibiotic-resistant S. pneumoniae lineages PMEN3 and PMEN9. A single PMEN3 clade spread globally, evading vaccine-induced immunity through frequent serotype switching, whereas locally circulating PMEN9 clades independently gained resistance. Both lineages repeatedly integrated Tn916-type and Tn1207.1- type elements, conferring tetracycline and macrolide resistance, respectively, through homologous recombination importing sequences originating in other species. A species-wide dataset found over 100 instances of such interspecific acquisitions of resistance cassettes and flanking homologous arms. Phylodynamic analysis of the most commonly sampled Tn1207.1-type insertion in PMEN9, originating from a commensal and disrupting a competence gene, suggested its expansion across Germany was driven by a high ratio of macrolide-to-b-lactam consumption. Hence, selection from antibiotic consumption was sufficient for these atypically large recombinations to overcome species boundaries across the pneumococcal chromosome.

Keywords:  AMR; epidemiology, genetics, genomics, infectious disease, microbiology, recombination, streptococcus pneumoniae.

Link to Publication

The role of interspecies recombination in the evolution of antibiotic-resistant pneumococci

Faculty of Pharmacy, Siam University, Bangkok, Thailand