The transition metal gallium disrupts Pseudomonas aeruginosa iron metabolism and has antimicrobial and antibiofilm activity
Yukihiro Kaneko, Matthew Thoendel, Oyebode Olakanmi, Bradley E. Britigan, Pradeep K. Singh
Yukihiro Kaneko, Matthew Thoendel, Oyebode Olakanmi, Bradley E. Britigan, Pradeep K. Singh
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Research Article Infectious disease

The transition metal gallium disrupts Pseudomonas aeruginosa iron metabolism and has antimicrobial and antibiofilm activity

Abstract

A novel antiinfective approach is to exploit stresses already imposed on invading organisms by the in vivo environment. Fe metabolism is a key vulnerability of infecting bacteria because organisms require Fe for growth, and it is critical in the pathogenesis of infections. Furthermore, humans have evolved potent Fe-withholding mechanisms that can block acute infection, prevent biofilm formation leading to chronic infection, and starve bacteria that succeed in infecting the host. Here we investigate a “Trojan horse” strategy that uses the transition metal gallium to disrupt bacterial Fe metabolism and exploit the Fe stress of in vivo environments. Due to its chemical similarity to Fe, Ga can substitute for Fe in many biologic systems and inhibit Fe-dependent processes. We found that Ga inhibits Pseudomonas aeruginosa growth and biofilm formation and kills planktonic and biofilm bacteria in vitro. Ga works in part by decreasing bacterial Fe uptake and by interfering with Fe signaling by the transcriptional regulator pvdS. We also show that Ga is effective in 2 murine lung infection models. These data, along with the fact that Ga is FDA approved (for i.v. administration) and there is the dearth of new antibiotics in development, make Ga a potentially promising new therapeutic for P. aeruginosa infections.

Authors

Yukihiro Kaneko, Matthew Thoendel, Oyebode Olakanmi, Bradley E. Britigan, Pradeep K. Singh

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Figure 5

The uptake and antimicrobial activity of Ga does not depend on major P. aeruginosa Fe-uptake systems.

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The uptake and antimicrobial activity of Ga does not depend on major P. ...
(A) P. aeruginosa takes up Ga. WT P. aeruginosa takes up Ga in concentration-dependent manner. Isogenic strains lacking functional pyoverdine, pyochelin, pyoverdine and pyochelin, and ferric uptake systems also took up Ga. Values are mean of 4 experiments and are not statistically different from each other (P = 0.17–0.37). (BE) P. aeruginosa strains lacking functional pyoverdine, pyochelin, pyoverdine and pyochelin, and ferric citrate uptake systems showed sensitivity to Ga’s growth-inhibitory effect that was similar to that of WT P. aeruginosa. Arrows show the final culture density obtained when WT P. aeruginosa was treated with the same concentration of Ga(NO3)3 (10 μM). Results are the mean of 3 separate experiments; error bars are SEM. (F) Fe-uptake mutants are sensitive to the antibiofilm effects of Ga. GFP-labeled bacteria were grown in flow cells perfused with biofilm medium without (top) and with (bottom) 1 μM Ga(NO3)3. Inactivation of the pyoverdine system produced biofilms with a flat structure, as described previously (11). Images were obtained after 5 days and are top-down views (x-y plane); scale bar: 50 μm. Results are representative of 3 experiments.