125. Induction of Resistance Against Antipseudomonal Agents: Comparison of Novel b-Lactam/b-Lactamase Inhibitor (BL/BLI) Combinations and Other b-lactam Agents
Abstract Background The acquisition of mutations is the main driver of β-lactam resistance in Pseudomonas aeruginosa isolates. New BL/BLIs, such as ceftazidime-avibactam (CAZ-AVI), ceftolozane-tazobactam (C/T), and imipenem-relebactam (IMI-REL), are active against most P. aeruginosa isolates from US...
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Published in | Open forum infectious diseases Vol. 9; no. Supplement_2 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
15.12.2022
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Online Access | Get full text |
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Summary: | Abstract
Background
The acquisition of mutations is the main driver of β-lactam resistance in Pseudomonas aeruginosa isolates. New BL/BLIs, such as ceftazidime-avibactam (CAZ-AVI), ceftolozane-tazobactam (C/T), and imipenem-relebactam (IMI-REL), are active against most P. aeruginosa isolates from US hospitals, but the ability of these agents to induce resistance have not been explored. We subjected 8 P. aeruginosa isolates, including ATCC 27853 and 7 clinical isolates, to a 10-day serial passage with 6 antipseudomonal agents to evaluate resistance levels and mechanisms in terminal mutant strains.
Fold change in MIC results from parent isolate to terminal mutant
Methods
Serial passaging was performed in broth microdilution (BMD) for CAZ-AVI, IMI-REL, C/T, meropenem (MEM), cefepime (FEP), and piperacillin-tazobactam (P/T). The MIC of the terminal mutants was determined after 2X passaging on drug-free agar. Parent strains and terminal mutants were subjected to short-read whole genome sequencing (WGS) at 100X coverage. Parent isolates were sequenced using long-read WGS and the data was combined with short-reading sequencing for single nucleotide polymorphism (SNP) analysis.
Results
Overall, IMI-REL (1- to 4-fold) and CAZ-AVI (2- to 8-fold) displayed lower fold increases in MIC values when compared to other agents tested (Figure). Of the CAZ-AVI terminal mutants, 3 displayed a nalD regulator alteration, and 1 of these had a clpA chaperone missense substitution. FEP terminal mutants exhibited alterations in ampD, mexB, and the TetR family transcriptional regulator AmrR. C/T mutants had ampG and ftsI missense alterations. MEM mutants had nalC, ftsI, and phoP missense alterations. Mutations in merR, nalC, and ampD were observed in the P/T terminal mutants. Among 2 IMI-REL terminal mutants displaying a SNP alteration, 1 displayed a nonsense mutation in pilF, a pilus forming protein. Many terminal mutants displayed alterations in genes not commonly associated to β-lactam resistance.
Conclusion
MEM, FEP, and P/T terminal mutants displayed high MIC values compared to those obtained after exposure to C/T, CAZ-AVI, and IMI-REL. This data might indicate a benefit of using these newer agents to prevent the emergence of high-level resistance.
Disclosures
Mariana Castanheira, PhD, AbbVie: Grant/Research Support|Cidara: Grant/Research Support|GSK: Grant/Research Support|Melinta: Grant/Research Support|Pfizer: Grant/Research Support|Shionogi: Grant/Research Support Jill Lindley, BS, AbbVie: Grant/Research Support Timothy Doyle, MS, AbbVie: Grant/Research Support John H. Kimbrough, PhD, AbbVie: Grant/Research Support|GSK: Grant/Research Support Jessica Ewald, PhD, AbbVie: Grant/Research Support Helio S. Sader, MD, PhD, AbbVie: Grant/Research Support|Cidara: Grant/Research Support|Melinta: Grant/Research Support|Nabriva Therapeutics: Grant/Research Support|Pfizer: Grant/Research Support. |
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ISSN: | 2328-8957 2328-8957 |
DOI: | 10.1093/ofid/ofac492.203 |