Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis

Wynne D. Smith; Emmanuelle Bardin; Loren Cameron; Claire L. Edmondson; Katie V. Farrant; Isaac Martin; Ronan A. Murphy; Odel Soren; Andrew R. Turnbull; Natasha Wierre-Gore; Eric W. Alton; Jacob G. Bundy; Andrew Bush; Gary J. Connett; Saul N. Faust; Alain Filloux; Paul S. Freemont; Andrew L. Jones; Zoltan Takats; Jeremy S. Webb; Huw D. Williams; Jane C. Davies

doi:10.1093/femsle/fnx121

Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis

Wynne D. Smith^*, Emmanuelle Bardin, Loren Cameron, Claire L. Edmondson, Katie V. Farrant, Isaac Martin, Ronan A. Murphy, Odel Soren, Andrew R. Turnbull, Natasha Wierre-Gore, Eric W. Alton, Jacob G. Bundy, Andrew Bush, Gary J. Connett, Saul N. Faust, Alain Filloux, Paul S. Freemont, Andrew L. Jones, Zoltan Takats, Jeremy S. WebbHuw D. Williams, Jane C. Davies

^*Corresponding author for this work

Research output: Contribution to journal › Short survey › peer-review

88 Citations (Scopus)

Abstract

Pseudomonas aeruginosa opportunistically infects the airways of patients with cystic fibrosis and causes significant morbidity and mortality. Initial infection can often be eradicated though requires prompt detection and adequate treatment. Intermittent and then chronic infection occurs in the majority of patients. Better detection of P. aeruginosa infection using biomarkers may enable more successful eradication before chronic infection is established. In chronic infection P. aeruginosa adapts to avoid immune clearance and resist antibiotics via efflux pumps, β-lactamase expression, reduced porins and switching to a biofilm lifestyle. The optimal treatment strategies for P. aeruginosa infection are still being established, and new antibiotic formulations such as liposomal amikacin, fosfomycin in combination with tobramycin and inhaled levofloxacin are being explored. Novel agents such as the alginate oligosaccharide OligoG, cysteamine, bacteriophage, nitric oxide, garlic oil and gallium may be useful as anti-pseudomonal strategies, and immunotherapy to prevent infection may have a role in the future. New treatments that target the primary defect in cystic fibrosis, recently licensed for use, have been associated with a fall in P. aeruginosa infection prevalence. Understanding the mechanisms for this could add further strategies for treating P. aeruginosa in future.

Original language	English
Article number	fnx121
Journal	FEMS Microbiology Letters
Volume	364
Issue number	14
DOIs	https://doi.org/10.1093/femsle/fnx121
Publication status	Published - Jul 1 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© FEMS 2017.

ASJC Scopus Subject Areas

Microbiology
Molecular Biology
Genetics

Keywords

Adaptation
Antibiotic resistance
Diagnosis
Novel therapies
Pseudomonas aeruginosa

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10.1093/femsle/fnx121

Cite this

Smith, W. D., Bardin, E., Cameron, L., Edmondson, C. L., Farrant, K. V., Martin, I., Murphy, R. A., Soren, O., Turnbull, A. R., Wierre-Gore, N., Alton, E. W., Bundy, J. G., Bush, A., Connett, G. J., Faust, S. N., Filloux, A., Freemont, P. S., Jones, A. L., Takats, Z., ... Davies, J. C. (2017). Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis. FEMS Microbiology Letters, 364(14), Article fnx121. https://doi.org/10.1093/femsle/fnx121

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title = "Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis",

abstract = "Pseudomonas aeruginosa opportunistically infects the airways of patients with cystic fibrosis and causes significant morbidity and mortality. Initial infection can often be eradicated though requires prompt detection and adequate treatment. Intermittent and then chronic infection occurs in the majority of patients. Better detection of P. aeruginosa infection using biomarkers may enable more successful eradication before chronic infection is established. In chronic infection P. aeruginosa adapts to avoid immune clearance and resist antibiotics via efflux pumps, β-lactamase expression, reduced porins and switching to a biofilm lifestyle. The optimal treatment strategies for P. aeruginosa infection are still being established, and new antibiotic formulations such as liposomal amikacin, fosfomycin in combination with tobramycin and inhaled levofloxacin are being explored. Novel agents such as the alginate oligosaccharide OligoG, cysteamine, bacteriophage, nitric oxide, garlic oil and gallium may be useful as anti-pseudomonal strategies, and immunotherapy to prevent infection may have a role in the future. New treatments that target the primary defect in cystic fibrosis, recently licensed for use, have been associated with a fall in P. aeruginosa infection prevalence. Understanding the mechanisms for this could add further strategies for treating P. aeruginosa in future.",

keywords = "Adaptation, Antibiotic resistance, Diagnosis, Novel therapies, Pseudomonas aeruginosa",

author = "Smith, {Wynne D.} and Emmanuelle Bardin and Loren Cameron and Edmondson, {Claire L.} and Farrant, {Katie V.} and Isaac Martin and Murphy, {Ronan A.} and Odel Soren and Turnbull, {Andrew R.} and Natasha Wierre-Gore and Alton, {Eric W.} and Bundy, {Jacob G.} and Andrew Bush and Connett, {Gary J.} and Faust, {Saul N.} and Alain Filloux and Freemont, {Paul S.} and Jones, {Andrew L.} and Zoltan Takats and Webb, {Jeremy S.} and Williams, {Huw D.} and Davies, {Jane C.}",

note = "Publisher Copyright: {\textcopyright} FEMS 2017.",

year = "2017",

month = jul,

day = "1",

doi = "10.1093/femsle/fnx121",

language = "English",

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Smith, WD, Bardin, E, Cameron, L, Edmondson, CL, Farrant, KV, Martin, I, Murphy, RA, Soren, O, Turnbull, AR, Wierre-Gore, N, Alton, EW, Bundy, JG, Bush, A, Connett, GJ, Faust, SN, Filloux, A, Freemont, PS, Jones, AL, Takats, Z, Webb, JS, Williams, HD & Davies, JC 2017, 'Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis', FEMS Microbiology Letters, vol. 364, no. 14, fnx121. https://doi.org/10.1093/femsle/fnx121

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T1 - Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis

AU - Smith, Wynne D.

AU - Bardin, Emmanuelle

AU - Cameron, Loren

AU - Edmondson, Claire L.

AU - Farrant, Katie V.

AU - Martin, Isaac

AU - Murphy, Ronan A.

AU - Soren, Odel

AU - Turnbull, Andrew R.

AU - Wierre-Gore, Natasha

AU - Alton, Eric W.

AU - Bundy, Jacob G.

AU - Bush, Andrew

AU - Connett, Gary J.

AU - Faust, Saul N.

AU - Filloux, Alain

AU - Freemont, Paul S.

AU - Jones, Andrew L.

AU - Takats, Zoltan

AU - Webb, Jeremy S.

AU - Williams, Huw D.

AU - Davies, Jane C.

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N2 - Pseudomonas aeruginosa opportunistically infects the airways of patients with cystic fibrosis and causes significant morbidity and mortality. Initial infection can often be eradicated though requires prompt detection and adequate treatment. Intermittent and then chronic infection occurs in the majority of patients. Better detection of P. aeruginosa infection using biomarkers may enable more successful eradication before chronic infection is established. In chronic infection P. aeruginosa adapts to avoid immune clearance and resist antibiotics via efflux pumps, β-lactamase expression, reduced porins and switching to a biofilm lifestyle. The optimal treatment strategies for P. aeruginosa infection are still being established, and new antibiotic formulations such as liposomal amikacin, fosfomycin in combination with tobramycin and inhaled levofloxacin are being explored. Novel agents such as the alginate oligosaccharide OligoG, cysteamine, bacteriophage, nitric oxide, garlic oil and gallium may be useful as anti-pseudomonal strategies, and immunotherapy to prevent infection may have a role in the future. New treatments that target the primary defect in cystic fibrosis, recently licensed for use, have been associated with a fall in P. aeruginosa infection prevalence. Understanding the mechanisms for this could add further strategies for treating P. aeruginosa in future.

AB - Pseudomonas aeruginosa opportunistically infects the airways of patients with cystic fibrosis and causes significant morbidity and mortality. Initial infection can often be eradicated though requires prompt detection and adequate treatment. Intermittent and then chronic infection occurs in the majority of patients. Better detection of P. aeruginosa infection using biomarkers may enable more successful eradication before chronic infection is established. In chronic infection P. aeruginosa adapts to avoid immune clearance and resist antibiotics via efflux pumps, β-lactamase expression, reduced porins and switching to a biofilm lifestyle. The optimal treatment strategies for P. aeruginosa infection are still being established, and new antibiotic formulations such as liposomal amikacin, fosfomycin in combination with tobramycin and inhaled levofloxacin are being explored. Novel agents such as the alginate oligosaccharide OligoG, cysteamine, bacteriophage, nitric oxide, garlic oil and gallium may be useful as anti-pseudomonal strategies, and immunotherapy to prevent infection may have a role in the future. New treatments that target the primary defect in cystic fibrosis, recently licensed for use, have been associated with a fall in P. aeruginosa infection prevalence. Understanding the mechanisms for this could add further strategies for treating P. aeruginosa in future.

KW - Adaptation

KW - Antibiotic resistance

KW - Diagnosis

KW - Novel therapies

KW - Pseudomonas aeruginosa

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Current and future therapies for Pseudomonas aeruginosa infection in patients with cystic fibrosis

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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