Resistance to aztreonam-avibactam among clinical isolates of E. coli is primarily mediated by altered penicillin binding protein 3 and impermeability

Herein, we investigated decreased susceptibility (DS; MICs 0.25-4 mg/L) and resistance (R; MICs >4 mg/L) to aztreonam-avibactam (ATM-AVI). Contemporary non-replicate clinical isolates of carbapenemase-producing Escherichia coli (n=90) (CP-EC) and ESBL-producing E. coli (n=12) (EP-EC) was used. CP-EC belonged to 25 distinct sequence types (STs) and all EP-EC belonged to ST405. All strains were isolated through 2019-2022 at the Karolinska University Laboratory, Stockholm, Sweden. ATM-AVI MICs were determined with broth microdilution and the EUCAST epidemiological cutoff value of 0.125 mg/L was used to define the wildtype (WT). Whole genome sequences (Illumina) were analyzed for detecting of resistance determinants among WT vs non-WT isolates. Among 102 isolates, 40 (39%) and 62 (61%) were WT and non-WT respectively. Among non-WT isolates 20 were R and 42 were DS. Resistance was observed among 14/47 NDM-producers, 5/43 OXA-48 group producers, and 1/12 EP-EC. DS was observed among 29/47 NDM, 13/43 OXA-48 group, and 3/12 EP-EC. Resistant isolates predominantly belonged to ST405 followed by STs 410, 361, 167, 617, and 1284. Presence of PBP3 inserts (YRIK/YRIN) were observed in 20/20 and presence of CMY-42 in 5/20 resistant isolates. Several mutations in the ftsI (encoding PBP3) and regulatory genes of outer membrane proteins (OmpC and OmpF) and efflux pumps (AcrAB-TolC) were detected. A ≥2-fold reduction in MICs were observed among 20/20 vs 7/20 isolates tested in the presence of the membrane permeabilizer PMBN and efflux inhibitor PAβN, respectively. In conclusion, resistance to ATM-AVI is a result of interplay of various determinants, including target alterations, deactivating Enzymes, and decreased permeability.

Aztreonam-avibactam; CMY-42; NDM; PBP3; Polymyxin B nanopeptide; carbapenemase; resistance mechanisms.