Penicillin-Binding Protein Typing, Antibiotic Resistance Gene Identification, and Molecular Phylogenetic Analysis of Meropenem-Resistant Streptococcus pneumoniae Serotype 19A-CC3111 Strains in Japan

Since the introduction of pneumococcal conjugate vaccines, the prevalence of non-meropenem-susceptible pneumococci has been increasing in Japan. In an earlier study, we demonstrated that multidrug-resistant serotype 15A-ST63 in Japan has a specific pbp1a sequence (pbp1a-13) that could promote meropenem resistance. To trace the origin of pbp1a, we analyzed isolates of serotype 19A-CC3111, which is the most prevalent non-meropenem-susceptible clone in Japan. We analyzed a total of 119 serotype 19A-CC3111 strains recovered in Japan using wholegenome sequencing. Of the 119 isolates, 53 (44.5%) harbored pbp1a-13, indicating that the clone may be the primary reservoir of the pbp1a type and that the pbp1a region may be horizontally transferred between different serotype strains. The single acquisition of pbp1a-13 seemed to cause only penicillin resistance and not multidrug resistance; a combination of penicillin-binding protein (PBP) recombination in the pbp2b and/or pbp2x region(s) with acquisition of pbp1a-13 caused multidrug resistance. Conserved amino acid motif analysis suggested that the pbp1a 370SXXK, pbp2b 448SXN, and pbp2x 337SXXN motifs were the candidates for amino acid substitutions increasing the MICs of meropenem, cefotaxime, and penicillin. We identified a specific clone that was correlated with multidrug resistance, although no correlation was observed between phylogenetic trees generated using core genomes and those generated with only the cps locus. All tested isolates were highly erythromycin resistant, and most harbored mefE within macrolide efflux genetic assembly (MEGA) elements and ermB within Tn917, which was inserted within Tn916 and exhibited a structure identical to that of Tn2017.