Abstract
Pseudomonas aeruginosa may develop resistance to novel cephalosporin/β-lactamase inhibitor combinations during therapy through the acquisition of structural mutations in AmpC. To describe the molecular and biochemical mechanisms involved in the development of resistance to ceftolozane/tazobactam in vivo through the selection and overproduction of a novel AmpC variant, designated PDC-315. Paired susceptible/resistant isolates obtained before and during ceftolozane/tazobactam treatment were evaluated. MICs were determined by broth microdilution. Mutational changes were investigated through WGS. Characterization of the novel PDC-315 variant was performed through genotypic and biochemical studies. The effects at the molecular level of the Asp245Asn change were analysed by molecular dynamics simulations using Amber. WGS identified mutations leading to modification (Asp245Asn) and overproduction of AmpC. Susceptibility testing revealed that PAOΔC producing PDC-315 displayed increased MICs of ceftolozane/tazobactam, decreased MICs of piperacillin/tazobactam and imipenem and similar susceptibility to ceftazidime/avibactam compared with WT PDCs. The catalytic efficiency of PDC-315 for ceftolozane was 10-fold higher in relation to the WT PDCs, but 3.5- and 5-fold lower for piperacillin and imipenem. IC50 values indicated strong inhibition of PDC-315 by avibactam, but resistance to cloxacillin inhibition. Analysis at the atomic level explained that the particular behaviour of PDC-315 is linked to conformational changes in the H10 helix that favour the approximation of key catalytic residues to the active site. We deciphered the precise mechanisms that led to the in vivo emergence of resistance to ceftolozane/tazobactam in P. aeruginosa through the selection of the novel PDC-315 enzyme. The characterization of this new variant expands our knowledge about AmpC-mediated resistance to cephalosporin/β-lactamase inhibitors in P. aeruginosa.
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