Emergence of Acinetobacter soli harboring three carbapenemase-encoding genes ( bla _NDM-1 , bla

Acinetobacter soli is an environmentally adaptable species increasingly recognized as an emerging pathogen in hospital settings, particularly in intensive care units (ICUs). In this study, we report the first A. soli isolate from an ICU patient that co-harbors three carbapenemase-encoding genes ( bla _NDM-1 , bla _IMP-14 , and bla _OXA-58 ) on a single plasmid. Whole-genome sequencing revealed that multidrug resistance in this strain is mediated by a 294,790 bp plasmid, pSLAB-A, carrying 16 antimicrobial resistance genes, including all three carbapenemases. Comparative plasmid analysis showed a highly conserved backbone but identified a unique ~40 kb multidrug-resistance region containing bla _NDM-1 , bla _IMP-14 , and eight additional resistance genes. Genetic context analysis indicated that insertion sequences (IS Aba125 and IS Aba3 ) and class 1 integrons contribute to the mobilization and accumulation of carbapenemase-encoding genes. Plasmid stability assays demonstrated that pSLAB-A remained stably maintained for more than 90 generations without antibiotic selection. A global survey of the NCBI database identified 15 A. soli strains carrying carbapenemase-encoding genes, most of which were isolated from China, with clinical specimens representing the predominant source. Seven carbapenemase-encoding genes were detected, with bla _NDM-1 being the most prevalent. Among eight isolates with complete genomes, all carried carbapenemase-encoding genes on plasmids. Phylogenetic analysis revealed regional dissemination of a clonal lineage across hospitals in Zhejiang Province and sustained nosocomial transmission within a hospital in Taiwan. These findings suggest that the spread of carbapenem resistance in A. soli is largely driven by multidrug-resistance plasmids, facilitating clonal expansion in hospital environments and posing a growing challenge for antimicrobial therapy and infection control in ICUs.