Neisseria species as pathobionts in bronchiectasis

Liang Li; Micheál Mac Aogáin; Tengfei Xu; Tavleen Kaur Jaggi; Louisa L.Y. Chan; Jing Qu; Lan Wei; Shumin Liao; Hong Sheng Cheng; Holly R. Keir; Alison J. Dicker; Kai Sen Tan; Wang De Yun; Mariko Siyue Koh; Thun How Ong; Albert Yick Hou Lim; John A. Abisheganaden; Teck Boon Low; Tidi Maharani Hassan; Xiang Long; Peter A.B. Wark; Brian Oliver; Daniela I. Drautz-Moses; Stephan C. Schuster; Nguan Soon Tan; Mingliang Fang; James D. Chalmers; Sanjay H. Chotirmall

doi:10.1016/j.chom.2022.08.005

Neisseria species as pathobionts in bronchiectasis

Liang Li, Micheál Mac Aogáin, Tengfei Xu, Tavleen Kaur Jaggi, Louisa L.Y. Chan, Jing Qu, Lan Wei, Shumin Liao, Hong Sheng Cheng, Holly R. Keir, Alison J. Dicker, Kai Sen Tan, Wang De Yun, Mariko Siyue Koh, Thun How Ong, Albert Yick Hou Lim, John A. Abisheganaden, Teck Boon Low, Tidi Maharani Hassan, Xiang LongPeter A.B. Wark, Brian Oliver, Daniela I. Drautz-Moses, Stephan C. Schuster, Nguan Soon Tan, Mingliang Fang, James D. Chalmers, Sanjay H. Chotirmall^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

43 Citations (Scopus)

Abstract

Neisseria species are frequently identified in the bronchiectasis microbiome, but they are regarded as respiratory commensals. Using a combination of human cohorts, next-generation sequencing, systems biology, and animal models, we show that bronchiectasis bacteriomes defined by the presence of Neisseria spp. associate with poor clinical outcomes, including exacerbations. Neisseria subflava cultivated from bronchiectasis patients promotes the loss of epithelial integrity and inflammation in primary epithelial cells. In vivo animal models of Neisseria subflava infection and metabolipidome analysis highlight immunoinflammatory functional gene clusters and provide evidence for pulmonary inflammation. The murine metabolipidomic data were validated with human Neisseria-dominant bronchiectasis samples and compared with disease in which Pseudomonas-, an established bronchiectasis pathogen, is dominant. Metagenomic surveillance of Neisseria across various respiratory disorders reveals broader importance, and the assessment of the home environment in bronchiectasis implies potential environmental sources of exposure. Thus, we identify Neisseria species as pathobionts in bronchiectasis, allowing for improved risk stratification in this high-risk group.

Original language	English
Pages (from-to)	1311-1327.e8
Journal	Cell Host and Microbe
Volume	30
Issue number	9
DOIs	https://doi.org/10.1016/j.chom.2022.08.005
Publication status	Published - Sept 14 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 The Author(s)

ASJC Scopus Subject Areas

Parasitology
Microbiology
Virology

Keywords

bronchiectasis
CAMEB
metabololipidomics
metagenomics
microbiome
Neisseria
transcriptomics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.chom.2022.08.005

Cite this

Li, L., Mac Aogáin, M., Xu, T., Jaggi, T. K., Chan, L. L. Y., Qu, J., Wei, L., Liao, S., Cheng, H. S., Keir, H. R., Dicker, A. J., Tan, K. S., De Yun, W., Koh, M. S., Ong, T. H., Lim, A. Y. H., Abisheganaden, J. A., Low, T. B., Hassan, T. M., ... Chotirmall, S. H. (2022). Neisseria species as pathobionts in bronchiectasis. Cell Host and Microbe, 30(9), 1311-1327.e8. https://doi.org/10.1016/j.chom.2022.08.005

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title = "Neisseria species as pathobionts in bronchiectasis",

abstract = "Neisseria species are frequently identified in the bronchiectasis microbiome, but they are regarded as respiratory commensals. Using a combination of human cohorts, next-generation sequencing, systems biology, and animal models, we show that bronchiectasis bacteriomes defined by the presence of Neisseria spp. associate with poor clinical outcomes, including exacerbations. Neisseria subflava cultivated from bronchiectasis patients promotes the loss of epithelial integrity and inflammation in primary epithelial cells. In vivo animal models of Neisseria subflava infection and metabolipidome analysis highlight immunoinflammatory functional gene clusters and provide evidence for pulmonary inflammation. The murine metabolipidomic data were validated with human Neisseria-dominant bronchiectasis samples and compared with disease in which Pseudomonas-, an established bronchiectasis pathogen, is dominant. Metagenomic surveillance of Neisseria across various respiratory disorders reveals broader importance, and the assessment of the home environment in bronchiectasis implies potential environmental sources of exposure. Thus, we identify Neisseria species as pathobionts in bronchiectasis, allowing for improved risk stratification in this high-risk group.",

keywords = "bronchiectasis, CAMEB, metabololipidomics, metagenomics, microbiome, Neisseria, transcriptomics",

author = "Liang Li and {Mac Aog{\'a}in}, Miche{\'a}l and Tengfei Xu and Jaggi, {Tavleen Kaur} and Chan, {Louisa L.Y.} and Jing Qu and Lan Wei and Shumin Liao and Cheng, {Hong Sheng} and Keir, {Holly R.} and Dicker, {Alison J.} and Tan, {Kai Sen} and {De Yun}, Wang and Koh, {Mariko Siyue} and Ong, {Thun How} and Lim, {Albert Yick Hou} and Abisheganaden, {John A.} and Low, {Teck Boon} and Hassan, {Tidi Maharani} and Xiang Long and Wark, {Peter A.B.} and Brian Oliver and Drautz-Moses, {Daniela I.} and Schuster, {Stephan C.} and Tan, {Nguan Soon} and Mingliang Fang and Chalmers, {James D.} and Chotirmall, {Sanjay H.}",

note = "Publisher Copyright: {\textcopyright} 2022 The Author(s)",

year = "2022",

month = sep,

day = "14",

doi = "10.1016/j.chom.2022.08.005",

language = "English",

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pages = "1311--1327.e8",

journal = "Cell Host and Microbe",

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Li, L, Mac Aogáin, M, Xu, T, Jaggi, TK, Chan, LLY, Qu, J, Wei, L, Liao, S, Cheng, HS, Keir, HR, Dicker, AJ, Tan, KS, De Yun, W, Koh, MS, Ong, TH, Lim, AYH, Abisheganaden, JA, Low, TB, Hassan, TM, Long, X, Wark, PAB, Oliver, B, Drautz-Moses, DI, Schuster, SC , Tan, NS, Fang, M, Chalmers, JD & Chotirmall, SH 2022, 'Neisseria species as pathobionts in bronchiectasis', Cell Host and Microbe, vol. 30, no. 9, pp. 1311-1327.e8. https://doi.org/10.1016/j.chom.2022.08.005

TY - JOUR

T1 - Neisseria species as pathobionts in bronchiectasis

AU - Li, Liang

AU - Mac Aogáin, Micheál

AU - Xu, Tengfei

AU - Jaggi, Tavleen Kaur

AU - Chan, Louisa L.Y.

AU - Qu, Jing

AU - Wei, Lan

AU - Liao, Shumin

AU - Cheng, Hong Sheng

AU - Keir, Holly R.

AU - Dicker, Alison J.

AU - Tan, Kai Sen

AU - De Yun, Wang

AU - Koh, Mariko Siyue

AU - Ong, Thun How

AU - Lim, Albert Yick Hou

AU - Abisheganaden, John A.

AU - Low, Teck Boon

AU - Hassan, Tidi Maharani

AU - Long, Xiang

AU - Wark, Peter A.B.

AU - Oliver, Brian

AU - Drautz-Moses, Daniela I.

AU - Schuster, Stephan C.

AU - Tan, Nguan Soon

AU - Fang, Mingliang

AU - Chalmers, James D.

AU - Chotirmall, Sanjay H.

PY - 2022/9/14

Y1 - 2022/9/14

N2 - Neisseria species are frequently identified in the bronchiectasis microbiome, but they are regarded as respiratory commensals. Using a combination of human cohorts, next-generation sequencing, systems biology, and animal models, we show that bronchiectasis bacteriomes defined by the presence of Neisseria spp. associate with poor clinical outcomes, including exacerbations. Neisseria subflava cultivated from bronchiectasis patients promotes the loss of epithelial integrity and inflammation in primary epithelial cells. In vivo animal models of Neisseria subflava infection and metabolipidome analysis highlight immunoinflammatory functional gene clusters and provide evidence for pulmonary inflammation. The murine metabolipidomic data were validated with human Neisseria-dominant bronchiectasis samples and compared with disease in which Pseudomonas-, an established bronchiectasis pathogen, is dominant. Metagenomic surveillance of Neisseria across various respiratory disorders reveals broader importance, and the assessment of the home environment in bronchiectasis implies potential environmental sources of exposure. Thus, we identify Neisseria species as pathobionts in bronchiectasis, allowing for improved risk stratification in this high-risk group.

AB - Neisseria species are frequently identified in the bronchiectasis microbiome, but they are regarded as respiratory commensals. Using a combination of human cohorts, next-generation sequencing, systems biology, and animal models, we show that bronchiectasis bacteriomes defined by the presence of Neisseria spp. associate with poor clinical outcomes, including exacerbations. Neisseria subflava cultivated from bronchiectasis patients promotes the loss of epithelial integrity and inflammation in primary epithelial cells. In vivo animal models of Neisseria subflava infection and metabolipidome analysis highlight immunoinflammatory functional gene clusters and provide evidence for pulmonary inflammation. The murine metabolipidomic data were validated with human Neisseria-dominant bronchiectasis samples and compared with disease in which Pseudomonas-, an established bronchiectasis pathogen, is dominant. Metagenomic surveillance of Neisseria across various respiratory disorders reveals broader importance, and the assessment of the home environment in bronchiectasis implies potential environmental sources of exposure. Thus, we identify Neisseria species as pathobionts in bronchiectasis, allowing for improved risk stratification in this high-risk group.

KW - bronchiectasis

KW - CAMEB

KW - metabololipidomics

KW - metagenomics

KW - microbiome

KW - Neisseria

KW - transcriptomics

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AN - SCOPUS:85137627517

SN - 1931-3128

VL - 30

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JO - Cell Host and Microbe

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ER -

Neisseria species as pathobionts in bronchiectasis

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

UN SDGs

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Scientists Thought Bacteria Were Harmless – They Were Wrong

Scientists Thought a Bacteria Was Harmless – They Were Wrong

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Neisseria species as pathobionts in bronchiectasis

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Press/Media

Scientists Thought Bacteria Were Harmless – They Were Wrong

Scientists Thought a Bacteria Was Harmless – They Were Wrong

Cite this