Use of bacteriophage endolysin EL188 and outer membrane permeabilizers against Pseudomonas aeruginosa

Abstract

Aims: To select and evaluate an appropriate outer membrane (OM) permeabilizer to use in combination with the highly muralytic bacteriophage endolysin EL188 to inactivate (multi-resistant) Pseudomonas aeruginosa.

Methods and results: We tested the combination of endolysin EL188 and several OM permeabilizing compounds on three selected Ps. aeruginosa strains with varying antibiotic resistance. We analysed OM permeabilization using the hydrophobic probe N-phenylnaphtylamine and a recombinant fusion protein of a peptidoglycan binding domain and green fluorescent protein on the one hand and cell lysis assays on the other hand. Antibacterial assays showed that incubation of 10(6) Ps. aeruginosa cells ml(-1) in presence of 10 mmol l(-1) ethylene diamine tetraacetic acid disodium salt dihydrate (EDTA) and 50 μg ml(-1) endolysin EL188 led to a strain-dependent inactivation between 3·01 ± 0·17 and 4·27 ± 0·11 log units in 30 min. Increasing the EL188 concentration to 250 μg ml(-1) further increased the inactivation of the most antibiotic resistant strain Br667 (4·07 ± 0·09 log units).

Conclusions: Ethylene diamine tetraacetic acid disodium salt dihydrate was selected as the most suitable component to combine with EL188 in order to reduce Ps. aeruginosa with up to 4 log units in a time interval of 30 min.

Significance and impact of the study: This in vitro study demonstrates that the application range of bacteriophage encoded endolysins as 'enzybiotics' must not be limited to gram-positive pathogens.