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Respiratory microbiota resistance and resilience to pulmonary exacerbation and subsequent antimicrobial intervention

Respiratory microbiota resistance and resilience to pulmonary exacerbation and subsequent antimicrobial intervention
Respiratory microbiota resistance and resilience to pulmonary exacerbation and subsequent antimicrobial intervention

Pulmonary symptoms in cystic fibrosis (CF) begin in early life with chronic lung infections and concomitant airway inflammation leading to progressive loss of lung function. Gradual pulmonary function decline is interspersed with periods of acute worsening of respiratory symptoms known as CF pulmonary exacerbations (CFPEs). Cumulatively, CFPEs are associated with more rapid disease progression. In this study multiple sputum samples were collected from adult CF patients over the course of CFPEs to better understand how changes in microbiota are associated with CFPE onset and management. Data were divided into five clinical periods: pre-CFPE baseline, CFPE, antibiotic treatment, recovery, and post-CFPE baseline. Samples were treated with propidium monoazide prior to DNA extraction, to remove the impact of bacterial cell death artefacts following antibiotic treatment, and then characterised by 16S rRNA gene-targeted high-throughput sequencing. Partitioning CF microbiota into core and rare groups revealed compositional resistance to CFPE and resilience to antibiotics interventions. Mixed effects modelling of core microbiota members revealed no significant negative impact on the relative abundance of Pseudomonas aeruginosa across the exacerbation cycle. Our findings have implications for current CFPE management strategies, supporting reassessment of existing antimicrobial treatment regimens, as antimicrobial resistance by pathogens and other members of the microbiota may be significant contributing factors.

Adolescent, Adult, Anti-Bacterial Agents/therapeutic use, Chronic Disease, Cystic Fibrosis/complications, DNA, Bacterial/genetics, Female, Humans, Lung/microbiology, Male, Microbiota, Middle Aged, Pseudomonas aeruginosa/genetics, RNA, Ribosomal, 16S/genetics, Respiratory Tract Infections/complications, Sputum/microbiology, Young Adult
1751-7362
1081-91
Cuthbertson, Leah
edc8c66d-525d-404c-9c80-770996282b5b
Rogers, Geraint B
bd90d82a-4150-4e01-a755-b81559586da2
Walker, Alan W
9fd7837e-a130-46a3-9dd7-1ed589e1910a
Oliver, Anna
d5c22546-679e-4c07-bf2d-fb7aedb69f6f
Green, Laura E
532075cb-17f4-4453-967b-e5102f414f05
Daniels, Thomas W V
9a8ab6f0-2eb9-4703-b536-f86923888213
Carroll, Mary P
b836d262-6b07-4006-9c81-26653a26588b
Parkhill, Julian
1f2ed5a1-058d-4bf5-becc-e2a5e8d4002a
Bruce, Kenneth D
09fa4b3f-2183-4e6e-933d-70a3c1b20b5d
van der Gast, Christopher J
eb316b36-8eff-4508-a17a-64fe024d5611
Cuthbertson, Leah
edc8c66d-525d-404c-9c80-770996282b5b
Rogers, Geraint B
bd90d82a-4150-4e01-a755-b81559586da2
Walker, Alan W
9fd7837e-a130-46a3-9dd7-1ed589e1910a
Oliver, Anna
d5c22546-679e-4c07-bf2d-fb7aedb69f6f
Green, Laura E
532075cb-17f4-4453-967b-e5102f414f05
Daniels, Thomas W V
9a8ab6f0-2eb9-4703-b536-f86923888213
Carroll, Mary P
b836d262-6b07-4006-9c81-26653a26588b
Parkhill, Julian
1f2ed5a1-058d-4bf5-becc-e2a5e8d4002a
Bruce, Kenneth D
09fa4b3f-2183-4e6e-933d-70a3c1b20b5d
van der Gast, Christopher J
eb316b36-8eff-4508-a17a-64fe024d5611

Cuthbertson, Leah, Rogers, Geraint B, Walker, Alan W, Oliver, Anna, Green, Laura E, Daniels, Thomas W V, Carroll, Mary P, Parkhill, Julian, Bruce, Kenneth D and van der Gast, Christopher J (2016) Respiratory microbiota resistance and resilience to pulmonary exacerbation and subsequent antimicrobial intervention. The ISME Journal, 10 (5), 1081-91. (doi:10.1038/ismej.2015.198).

Record type: Article

Abstract

Pulmonary symptoms in cystic fibrosis (CF) begin in early life with chronic lung infections and concomitant airway inflammation leading to progressive loss of lung function. Gradual pulmonary function decline is interspersed with periods of acute worsening of respiratory symptoms known as CF pulmonary exacerbations (CFPEs). Cumulatively, CFPEs are associated with more rapid disease progression. In this study multiple sputum samples were collected from adult CF patients over the course of CFPEs to better understand how changes in microbiota are associated with CFPE onset and management. Data were divided into five clinical periods: pre-CFPE baseline, CFPE, antibiotic treatment, recovery, and post-CFPE baseline. Samples were treated with propidium monoazide prior to DNA extraction, to remove the impact of bacterial cell death artefacts following antibiotic treatment, and then characterised by 16S rRNA gene-targeted high-throughput sequencing. Partitioning CF microbiota into core and rare groups revealed compositional resistance to CFPE and resilience to antibiotics interventions. Mixed effects modelling of core microbiota members revealed no significant negative impact on the relative abundance of Pseudomonas aeruginosa across the exacerbation cycle. Our findings have implications for current CFPE management strategies, supporting reassessment of existing antimicrobial treatment regimens, as antimicrobial resistance by pathogens and other members of the microbiota may be significant contributing factors.

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More information

Published date: May 2016
Keywords: Adolescent, Adult, Anti-Bacterial Agents/therapeutic use, Chronic Disease, Cystic Fibrosis/complications, DNA, Bacterial/genetics, Female, Humans, Lung/microbiology, Male, Microbiota, Middle Aged, Pseudomonas aeruginosa/genetics, RNA, Ribosomal, 16S/genetics, Respiratory Tract Infections/complications, Sputum/microbiology, Young Adult
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Identifiers

Local EPrints ID: 487813
URI: http://eprints.soton.ac.uk/id/eprint/487813
DOI: doi:10.1038/ismej.2015.198
ISSN: 1751-7362
PURE UUID: ef6dde86-b2db-47f5-8b3c-86250966dc4b

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Date deposited: 05 Mar 2024 18:31
Last modified: 17 Mar 2024 07:51

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Contributors

Author: Leah Cuthbertson
Author: Geraint B Rogers
Author: Alan W Walker
Author: Anna Oliver
Author: Laura E Green
Author: Thomas W V Daniels
Author: Mary P Carroll
Author: Julian Parkhill
Author: Kenneth D Bruce
Author: Christopher J van der Gast

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