Korakrit ImwattanaCésar RodríguezThomas V. RileyDaniel R. KnightSiriraj HospitalEdith Cowan UniversityUniversidad de Costa RicaThe University of Western AustraliaMurdoch UniversityQueen Elizabeth II Medical Centre Trust2022-08-042022-08-042021-01-01Microbial Genomics. Vol.7, No.11 (2021)205758582-s2.0-85119928282https://repository.li.mahidol.ac.th/handle/123456789/76322Antimicrobial resistance (AMR) plays an important role in the pathogenesis and spread of Clostridioides difficile infection (CDI), the leading healthcare-related gastrointestinal infection in the world. An association between AMR and CDI outbreaks is well documented, however, data is limited to a few ‘epidemic’ strains in specific geographical regions. Here, through detailed analysis of 10330 publicly-available C. difficile genomes from strains isolated worldwide (spanning 270 multilocus sequence types (STs) across all known evolu-tionary clades), this study provides the first species-wide snapshot of AMR genomic epidemiology in C. difficile. Of the 10330 C. difficile genomes, 4532 (43.9%) in 89 STs across clades 1–5 carried at least one genotypic AMR determinant, with 901 genomes (8.7%) carrying AMR determinants for three or more antimicrobial classes (multidrug-resistant, MDR). No AMR genotype was identified in any strains belonging to the cryptic clades. C. difficile from Australia/New Zealand had the lowest AMR prevalence compared to strains from Asia, Europe and North America (P<0.0001). Based on the phylogenetic clade, AMR prevalence was higher in clades 2 (84.3%), 4 (81.5%) and 5 (64.8%) compared to other clades (collectively 26.9%) (P<0.0001). MDR prevalence was highest in clade 4 (61.6%) which was over three times higher than in clade 2, the clade with the second-highest MDR prevalence (18.3%). There was a strong association between specific AMR determinants and three major epidemic C. difficile STs: ST1 (clade 2) with fluoroquinolone resistance (mainly T82I substitution in GyrA) (P<0.0001), ST11 (clade 5) with tetracycline resistance (various tet-family genes) (P<0.0001) and ST37 (clade 4) with macrolide-lincosamide-streptogramin B (MLSB ) resistance (mainly ermB) (P<0.0001) and MDR (P<0.0001). A novel and previously overlooked tetM-positive transposon designated Tn6944 was identified, predominantly among clade 2 strains. This study provides a comprehensive review of AMR in the global C. difficile population which may aid in the early detection of drug-resistant C. difficile strains, and prevention of their dissemination worldwide.Mahidol UniversityBiochemistry, Genetics and Molecular BiologyImmunology and MicrobiologyMedicineArticleSCOPUS10.1099/mgen.0.000696