Noninflammatory 97-amino acid High Mobility Group Box 1 derived polypeptide disrupts and prevents diverse biofilms.

Background: Bacterial biofilm communities are embedded in a protective extracellular matrix comprised of various components, with its' integrity largely owed to a 3-dimensional lattice of extracellular DNA (eDNA) interconnected by Holliday Junction (HJ)-like structures and stabilised by the ubiquitous eubacterial DNABII family of DNA-binding architectural proteins. We recently showed that the host innate immune effector High Mobility Group Box 1 (HMGB1) protein possesses extracellular anti-biofilm activity by destabilising these HJ-like structures, resulting in release of biofilm-resident bacteria into a vulnerable state. Herein, we showed that HMGB1's anti-biofilm activity was completely contained within a contiguous 97 amino acid region that retained DNA-binding activity, called 'mB Box-97'.

Methods: We engineered a synthetic version of this 97-mer and introduced a single amino acid change which lacked any post-translational modifications, and tested its activity independently and in combination with a humanised monoclonal antibody that disrupts biofilms by the distinct mechanism of DNABII protein sequestration.

Findings: mB Box-97 disrupted and prevented biofilms, including those formed by the ESKAPEE pathogens, and importantly reduced measurable proinflammatory activity normally associated with HMGB1 in a murine lung infection model.

Interpretation: Herein, we discuss the value of targeting the ubiquitous eDNA-dependent matrix of biofilms via mB Box-97 used singly or in a dual host-augmenting/pathogen-targeted cocktail to resolve bacterial biofilm infections.

Funding: This work was supported by NIH/NIDCD R01DC011818 to L.O.B. and S.D.G. and NIH/NIAID R01AI155501 to S.D.G.