Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis

RATIONALE: Emerging data support the existence of a microbial “gut-lung” axis that remains unexplored in bronchiectasis. METHODS: Prospective and concurrent sampling of gut (stool) and lung (sputum) was performed in a cohort of n = 57 individuals with bronchiectasis and subjected to bacteriome (16S ...

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Autores principales: Narayana, Jayanth Kumar, Aliberti, Stefano, Mac Aogáin, Micheál, Jaggi, Tavleen Kaur, Ali, Nur A’tikah Binte Mohamed, Ivan, Fransiskus Xaverius, Cheng, Hong Sheng, Yip, Yun Sheng, Vos, Marcus Ivan Gerard, Low, Zun Siong, Lee, Jeannie Xue Ting, Amati, Francesco, Gramegna, Andrea, Wong, Sunny H., Sung, Joseph J. Y., Tan, Nguan Soon, Tsaneva-Atanasova, Krasimira, Blasi, Francesco, Chotirmall, Sanjay H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Thoracic Society 2022
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10111978/
https://www.ncbi.nlm.nih.gov/pubmed/36288294
http://dx.doi.org/10.1164/rccm.202205-0893OC
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author Narayana, Jayanth Kumar
Aliberti, Stefano
Mac Aogáin, Micheál
Jaggi, Tavleen Kaur
Ali, Nur A’tikah Binte Mohamed
Ivan, Fransiskus Xaverius
Cheng, Hong Sheng
Yip, Yun Sheng
Vos, Marcus Ivan Gerard
Low, Zun Siong
Lee, Jeannie Xue Ting
Amati, Francesco
Gramegna, Andrea
Wong, Sunny H.
Sung, Joseph J. Y.
Tan, Nguan Soon
Tsaneva-Atanasova, Krasimira
Blasi, Francesco
Chotirmall, Sanjay H.
author_facet Narayana, Jayanth Kumar
Aliberti, Stefano
Mac Aogáin, Micheál
Jaggi, Tavleen Kaur
Ali, Nur A’tikah Binte Mohamed
Ivan, Fransiskus Xaverius
Cheng, Hong Sheng
Yip, Yun Sheng
Vos, Marcus Ivan Gerard
Low, Zun Siong
Lee, Jeannie Xue Ting
Amati, Francesco
Gramegna, Andrea
Wong, Sunny H.
Sung, Joseph J. Y.
Tan, Nguan Soon
Tsaneva-Atanasova, Krasimira
Blasi, Francesco
Chotirmall, Sanjay H.
author_sort Narayana, Jayanth Kumar
collection PubMed
description RATIONALE: Emerging data support the existence of a microbial “gut-lung” axis that remains unexplored in bronchiectasis. METHODS: Prospective and concurrent sampling of gut (stool) and lung (sputum) was performed in a cohort of n = 57 individuals with bronchiectasis and subjected to bacteriome (16S rRNA) and mycobiome (18S Internal Transcribed Spacer) sequencing (total, 228 microbiomes). Shotgun metagenomics was performed in a subset (n = 15; 30 microbiomes). Data from gut and lung compartments were integrated by weighted similarity network fusion, clustered, and subjected to co-occurrence analysis to evaluate gut-lung networks. Murine experiments were undertaken to validate specific Pseudomonas-driven gut-lung interactions. RESULTS: Microbial communities in stable bronchiectasis demonstrate a significant gut-lung interaction. Multibiome integration followed by unsupervised clustering reveals two patient clusters, differing by gut-lung interactions and with contrasting clinical phenotypes. A high gut-lung interaction cluster, characterized by lung Pseudomonas, gut Bacteroides, and gut Saccharomyces, is associated with increased exacerbations and greater radiological and overall bronchiectasis severity, whereas the low gut-lung interaction cluster demonstrates an overrepresentation of lung commensals, including Prevotella, Fusobacterium, and Porphyromonas with gut Candida. The lung Pseudomonas-gut Bacteroides relationship, observed in the high gut-lung interaction bronchiectasis cluster, was validated in a murine model of lung Pseudomonas aeruginosa infection. This interaction was abrogated after antibiotic (imipenem) pretreatment in mice confirming the relevance and therapeutic potential of targeting the gut microbiome to influence the gut-lung axis. Metagenomics in a subset of individuals with bronchiectasis corroborated our findings from targeted analyses. CONCLUSIONS: A dysregulated gut-lung axis, driven by lung Pseudomonas, associates with poorer clinical outcomes in bronchiectasis.
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spelling pubmed-101119782023-04-19 Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis Narayana, Jayanth Kumar Aliberti, Stefano Mac Aogáin, Micheál Jaggi, Tavleen Kaur Ali, Nur A’tikah Binte Mohamed Ivan, Fransiskus Xaverius Cheng, Hong Sheng Yip, Yun Sheng Vos, Marcus Ivan Gerard Low, Zun Siong Lee, Jeannie Xue Ting Amati, Francesco Gramegna, Andrea Wong, Sunny H. Sung, Joseph J. Y. Tan, Nguan Soon Tsaneva-Atanasova, Krasimira Blasi, Francesco Chotirmall, Sanjay H. Am J Respir Crit Care Med Original Articles RATIONALE: Emerging data support the existence of a microbial “gut-lung” axis that remains unexplored in bronchiectasis. METHODS: Prospective and concurrent sampling of gut (stool) and lung (sputum) was performed in a cohort of n = 57 individuals with bronchiectasis and subjected to bacteriome (16S rRNA) and mycobiome (18S Internal Transcribed Spacer) sequencing (total, 228 microbiomes). Shotgun metagenomics was performed in a subset (n = 15; 30 microbiomes). Data from gut and lung compartments were integrated by weighted similarity network fusion, clustered, and subjected to co-occurrence analysis to evaluate gut-lung networks. Murine experiments were undertaken to validate specific Pseudomonas-driven gut-lung interactions. RESULTS: Microbial communities in stable bronchiectasis demonstrate a significant gut-lung interaction. Multibiome integration followed by unsupervised clustering reveals two patient clusters, differing by gut-lung interactions and with contrasting clinical phenotypes. A high gut-lung interaction cluster, characterized by lung Pseudomonas, gut Bacteroides, and gut Saccharomyces, is associated with increased exacerbations and greater radiological and overall bronchiectasis severity, whereas the low gut-lung interaction cluster demonstrates an overrepresentation of lung commensals, including Prevotella, Fusobacterium, and Porphyromonas with gut Candida. The lung Pseudomonas-gut Bacteroides relationship, observed in the high gut-lung interaction bronchiectasis cluster, was validated in a murine model of lung Pseudomonas aeruginosa infection. This interaction was abrogated after antibiotic (imipenem) pretreatment in mice confirming the relevance and therapeutic potential of targeting the gut microbiome to influence the gut-lung axis. Metagenomics in a subset of individuals with bronchiectasis corroborated our findings from targeted analyses. CONCLUSIONS: A dysregulated gut-lung axis, driven by lung Pseudomonas, associates with poorer clinical outcomes in bronchiectasis. American Thoracic Society 2022-10-26 /pmc/articles/PMC10111978/ /pubmed/36288294 http://dx.doi.org/10.1164/rccm.202205-0893OC Text en Copyright © 2023 by the American Thoracic Society https://creativecommons.org/licenses/by-nc-nd/4.0/This article is open access and distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivatives License 4.0 (https://creativecommons.org/licenses/by-nc-nd/4.0/) . For commercial usage and reprints, please e-mail Diane Gern (dgern@thoracic.org).
spellingShingle Original Articles
Narayana, Jayanth Kumar
Aliberti, Stefano
Mac Aogáin, Micheál
Jaggi, Tavleen Kaur
Ali, Nur A’tikah Binte Mohamed
Ivan, Fransiskus Xaverius
Cheng, Hong Sheng
Yip, Yun Sheng
Vos, Marcus Ivan Gerard
Low, Zun Siong
Lee, Jeannie Xue Ting
Amati, Francesco
Gramegna, Andrea
Wong, Sunny H.
Sung, Joseph J. Y.
Tan, Nguan Soon
Tsaneva-Atanasova, Krasimira
Blasi, Francesco
Chotirmall, Sanjay H.
Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis
title Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis
title_full Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis
title_fullStr Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis
title_full_unstemmed Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis
title_short Microbial Dysregulation of the Gut-Lung Axis in Bronchiectasis
title_sort microbial dysregulation of the gut-lung axis in bronchiectasis
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10111978/
https://www.ncbi.nlm.nih.gov/pubmed/36288294
http://dx.doi.org/10.1164/rccm.202205-0893OC
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