Coselection for resistance to multiple late‐generation human therapeutic antibiotics encoded on tetracycline resistance plasmids captured from uncultivated stream and soil bacteria

Aims Transmissible plasmids captured from stream and soil bacteria conferring resistance to tetracycline in Pseudomonas were evaluated for linked resistance to antibiotics used in the treatment of human infections. Methods and Results Cells released from stream sediments and soils were conjugated with a rifampicin‐resistant, plasmid‐free Pseudomonas putida recipient and selected on tetracycline and rifampicin. Each transconjugant contained a single 50–80 kb plasmid. Resistance to 11 antibiotics, in addition to tetracycline, was determined for the stream transconjugants using a modification of the Stokes disc diffusion antibiotic susceptibility assay. Nearly half of plasmids conferred resistance to six or more antibiotics. Resistance to streptomycin, gentamicin, and/or ticarcillin was conferred by a majority of the plasmids, and resistance to additional human clinical use antibiotics such as piperacillin/tazobactam, ciprofloxacin and aztreonam was observed. MIC s of 16 antibiotics for representative sediment and soil transconjugants revealed large increases, relative to the Ps .  putida recipient, for 11 of 16 antibiotics tested, including the expanded spectrum antibiotics cefotaxime and ceftazidime, as well as piperacillin/tazobactam, lomefloxacin and levofloxacin. Conclusions Resistance to multiple antibiotics—including those typically used in clinical Pseudomonas and enterobacterial infections—can be conferred by transmissible plasmids in streams and soils. Significance and Impact of Study Selective pressure exerted by the use of one antibiotic, such as the common agricultural antibiotic tetracycline, may result in the persistence of linked genes conferring resistance to important human clinical antibiotics. This may impact the spread of resistance to human use antibiotics even in the absence of direct selection.