Polyproline Peptide Aggregation with Klebsiella pneumoniae Extracellular Polysaccharides Exposes Biofilm Associated Bacteria

Klebsiella pneumoniae produces a thick capsule layer composed of extracellular polysaccharides protecting the bacterial cells from clearance by innate host immunity during infection. Here we characterize the interactions of a structurally diverse set of host defense peptides with K. pneumoniae extracellular polysaccharides. Remarkably, we found that all host defense peptides were active against a diverse set of K. pneumoniae strains, including hypermucoviscous strains with extensive capsule production, and aggregated with extracted capsule. Interestingly, the polyproline peptide bac7 (1-35), was the most potent antimicrobial and induced the most capsule aggregation. In addition to capsule aggregation, we found that bac7 (1-35) could also disrupt pre-formed hypermucoviscous K. pneumoniae biofilm. Further analysis using scanning electron microscopy revealed the biofilm matrix of a hypermucoviscous strain is removed by bac7 (1-35) exposing associated bacterial cells. This is the first description of a host defense peptide interacting with capsular and biofilm extracellular polysaccharides to expose cells from a K. pneumoniae biofilm matrix and suggests that features of polyproline peptides may be uniquely suited for extracellular polysaccharide interactions. IMPORTANCE Klebsiella pneumoniae bacterial infections are a major threat to human health as mortality rates are steadily on the rise. A defining characteristic of K. pneumoniae is the robust polysaccharide capsule that aids in resistance to the human immune system. We have previously discovered that a synthetic peptide could aggregate with capsule polysaccharides and disrupt the capsule of K. pneumoniae. Here we describe that host defense peptides also aggregate with capsule produced from hypermucoviscous K. pneumoniae, revealing this mechanism is shared by natural peptides. We found the polyproline peptide bac7 (1-35) had the greatest antimicrobial activity and caused the most capsule aggregation. Interestingly, bac7 (1-35) also removed the biofilm matrix of hypermucoviscous K. pneumoniae exposing the associated bacterial cells. This is the first description of a polyproline peptide interacting with capsular and biofilm polysaccharides to expose cells from a K. pneumoniae biofilm matrix.