Acquisition of Resistance to PEGylated Branched Polyethylenimine Increases Pseudomonas Aeruginosa Susceptibility to Aminoglycosides.

Abstract

PEGylated branched polyethylenimine (PEG-BPEI) has antibacterial and antibiofilm properties. Exposure to PEG-BPEI through serial passage leads to resistant P. aeruginosa strains. The minimum inhibitory concentration (MIC) of 600 Da BPEI and PEGylated 600 Da BPEI (PEG-BPEI) in the wild-type PAO1 strain is 16 μg/ml while, after 15 serial passages, the MIC increased to 1024 μg/mL. An additional 15 rounds of serial passage in the absence of BPEI or PEG-BPEI did not change the 1024 μg/mL MIC. Gentamicin, Neomycin, and Tobramycin, cationic antibiotics that inhibit protein synthesis, have a 16-32 fold reduction of MIC values in PEG350-BPEI resistant strains, suggesting increased permeation. The influx of these antibiotics occurs using a self-mediated uptake mechanism, suggesting changes to the outer membrane Data show that resistance causes changes in genes related to outer membrane lipopolysaccharide (LPS) assembly. Mutations were noted in the gene coding for the polymerase Wzy that participates in the assembly of the O-antigen region. Other mutations were noted with wbpE and wbpI of the Wbp pathway responsible for the enzymatic synthesis of ManNAc(3NAc)A in the LPS of P. aeruginosa. These changes suggest that an altered gene product could lead to PEG-BPEI resistance. Nevertheless, the increased susceptibility to aminoglycosides could prevent the emergence of PEG-BPEI resistant bacterial populations.