DNase-mediated eDNA removal enhances D-LL-31 activity against biofilms of bacteria isolated from chronic rhinosinusitis patients.

Chronic rhinosinusitis (CRS) is a chronic infection of the nasal cavity and paranasal sinuses associated with the presence of a microbial biofilm. Extracellular DNA (eDNA) is an important component of the biofilm matrix. Antimicrobial peptides (AMPs) are natural peptides with the ability to kill microorganisms. D-LL-31 is a synthetic variant of the AMP cathelicidin with increased resistance to proteolytic breakdown. In this study it is shown for 3 clinical CRS isolates that treatment of 24 h biofilms with DNase I enhanced the antimicrobial activity of D-LL-31. Conversely, co-incubation of D-LL-31 at the IC50 value with exogenous DNA resulted in reduced antimicrobial activity. DNase I alone did not show antimicrobial activity against the isolates tested but caused dispersal of an established biofilm. Hence, the presence of eDNA in the biofilm matrix reduced AMP-mediated killing. These results suggest that combination therapy with proteolysis resistant AMP D-LL-31 and DNase could be considered for effective treatment of CRS.