Within-patient evolution to piperacillin/tazobactam resistance in a clinical isolate of Escherichia coli due to IS26-mediated amplification of blaTEM-1B

A novel phenotype of Escherichia coli and Klebsiella pneumoniae resistant to piperacillin/tazobactam (TZP), but susceptible to carbapenems and 3rd generation cephalosporins has recently emerged. The resistance mechanism of this phenotype has been identified as hyperproduction of the β-lactamase bla TEM, however the mechanism of hyperproduction in isolates lacking promoter region mutations is not well understood. We sought to understand this mechanism by focussing on a pair of isolates obtained from an individual patient across two infection episodes and displaying within-patient evolution to TZP resistance. Following confirmation that the two isolates were clonal, we found that the TZP-resistant isolate hyperproduced a β-lactamase but lacked mutations within β-lactamase promoter regions. Hybrid assembly of long and short sequencing reads of the two isolates revealed both harboured a novel IS 26 -flanked composite transposon containing several antibiotic resistance genes, including bla TEM-1B, which was designated Tn 6762 . These resistance genes are also found to be present on a translocatable unit which had excised from Tn 6762 in the TZP-resistant isolate. By replicating the evolutionary event leading to TZP resistance we were able to observe excision of the translocatable unit from Tn 6762 following exposure to TZP and capture the TU in a plasmid containing a copy of IS 26 . Subsequent amplification of the TU, and by extension bla TEM-1B, leads to β-lactamase hyperproduction and TZP resistance. Despite a significant increase in gene copy number (P value = <0.0001), we found that the TZP-resistant isolate was as fit as the susceptible ancestor. This mechanism of gene amplification, and the subsequent hyperproduction, of bla TEM-1B is an important consideration when using genomic data to predict resistance/susceptibility to TZP.