Abstract
Increasing rates of antibiotic resistance among Gram-negative pathogens such as Pseudomonasaeruginosa means alternative approaches to antibiotic development are urgently required. Pyocins, produced by P. aeruginosa for intraspecies competition, are highly potent protein antibiotics known to actively translocate across the outer membrane of P. aeruginosa. Understanding and exploiting the mechanisms by which pyocins target, penetrate and kill P. aeruginosa is a promising approach to antibiotic development. In this work we show the therapeutic potential of a newly identified tRNase pyocin, pyocin SD2, by demonstrating its activity invivo in a murine model of P.aeruginosa lung infection. In addition, we propose a mechanism of cell targeting and translocation for pyocin SD2 across the P. aeruginosa outer membrane. Pyocin SD2 is concentrated at the cell surface, via binding to the common polysaccharide antigen (CPA) of P.aeruginosa lipopolysaccharide (LPS), from where it can efficiently locate its outer membrane receptor FpvAI. This strategy of utilizing both the CPA and a protein receptor for cell targeting is common among pyocins as we show that pyocins S2, S5 and SD3 also bind to the CPA. Additional data indicate a key role for an unstructured N-terminal region of pyocin SD2in the subsequent translocation of the pyocin into the cell. These results greatly improve our understanding of how pyocins target and translocate across the outer membrane of P. aeruginosa. This knowledge could be useful for the development of novel anti-pseudomonal therapeutics and will also support the development of pyocin SD2 as a therapeutic in its own right.
Highlights
Pseudomonas aeruginosa is a Gram-negative opportunistic pathogen notable for being the leading cause of mortality in patients with cystic fibrosis [1]
Through in vivo studies we show that pyocin SD2 can afford protection against a lethal P. aeruginosa lung infection in a murine model, demonstrating its potential for therapeutic development
In recent work we showed that the common polysaccharide antigen (CPA) of P. aeruginosa LPS is a cell-surface receptor for pyocin L1, a 32 kDa, globular, lectinlike bacteriocin [21]
Summary
Pseudomonas aeruginosa is a Gram-negative opportunistic pathogen notable for being the leading cause of mortality in patients with cystic fibrosis [1]. P. aeruginosa is the principle organism associated with burn wound infections [2], the most prevalent Gram-negative bacteria associated with nosocomial and ventilator associated pneumonia [3] and the second most common cause of catheter-associated urinary tract infections [4]. In 2013 there were an estimated 51000 health-care associated P. aeruginosa infections in the U.S.A., more than 13 % of which were classed as MDR [6]. The prevalence of pan-drug resistant P. aeruginosa isolates (non-susceptibility to all antibiotics in all antimicrobial classes) is increasing, resulting in a return to a pre-antibiotic era for many patients with P. aeruginosa infections [7,8,9,10,11,12]. There is an urgent requirement to develop novel antibiotics to treat this drug resistant pathogen
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