Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome

Marion Engel; David Endesfelder; Brigitte Schloter-Hai; Susanne Kublik; Michael S. Granitsiotis; Piera Boschetto; Mariarita Stendardo; Imre Barta; Balazs Dome; Jean Francois Deleuze; Anne Boland; Joachim Muller-Quernheim; Antje Prasse; Tobias Welte; Jens M. Hohlfeld; Deepak Subramanian; David Parr; Ivo Glynne Gut; Timm Greulich; Andreas Rembert Koczulla; Adam Nowinski; Dorota Gorecka; Dave Singh; Sumit Gupta; Christopher E Brightling; Harald Hoffmann; Marion Frankenberger; Thomas P Hofer; Dorothe Burggraf; Marion Heiss Neumann; Loems Ziegler-Heitbrock; Michael Schloter; Wolfgang Zu Castell

doi:10.1371/journal.pone.0180859

Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome

Marion Engel, David Endesfelder, Brigitte Schloter-Hai, Susanne Kublik, Michael S. Granitsiotis, Piera Boschetto, Mariarita Stendardo, Imre Barta, Balazs Dome, Jean Francois Deleuze, Anne Boland, Joachim Muller-Quernheim, Antje Prasse, Tobias Welte, Jens M. Hohlfeld, Deepak Subramanian, David Parr, Ivo Glynne Gut, Timm Greulich, Andreas Rembert KoczullaAdam Nowinski, Dorota Gorecka, Dave Singh, Sumit Gupta, Christopher E Brightling, Harald Hoffmann, Marion Frankenberger, Thomas P Hofer, Dorothe Burggraf, Marion Heiss Neumann, Loems Ziegler-Heitbrock, Michael Schloter, Wolfgang Zu Castell

Division of Immunology, Immunity to Infection and Respiratory Medicine

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

Abstract

Background Changes in microbial community composition in the lung of patients suffering from moderate to severe COPD have been well documented. However, knowledge about specific microbiome structures in the human lung associated with CT defined abnormalities is limited. Methods Bacterial community composition derived from brush samples from lungs of 16 patients suffering from different CT defined subtypes of COPD and 9 healthy subjects was analyzed using a cultivation independent barcoding approach applying 454-pyrosequencing of 16S rRNA gene fragment amplicons. Results We could show that bacterial community composition in patients with changes in CT (either airway or emphysema type changes, designated as severe subtypes) was different from community composition in lungs of patients without visible changes in CT as well as from healthy subjects (designated as mild COPD subtype and control group) (PC1, Padj = 0.002). Higher abundance of Prevotella in samples from patients with mild COPD subtype and from controls and of Streptococcus in the severe subtype cases mainly contributed to the separation of bacterial communities of subjects. No significant effects of treatment with inhaled glucocorticoids on bacterial community composition were detected within COPD cases with and without abnormalities in CT in PCoA. Co-occurrence analysis suggests the presence of networks of co-occurring bacteria. Four communities of positively correlated bacteria were revealed. The microbial communities can clearly be distinguished by their associations with the CT defined disease phenotype. Conclusion Our findings indicate that CT detectable structural changes in the lung of COPD patients, which we termed severe subtypes, are associated with alterations in bacterial communities, which may induce further changes in the interaction between microbes and host cells. This might result in a changed interplay with the host immune system.

Original language	English
Article number	e0180859
Journal	PLoS ONE
Volume	12
Issue number	7
Early online date	13 Jul 2017
DOIs	https://doi.org/10.1371/journal.pone.0180859
Publication status	Published - Jul 2017

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Engel, M., Endesfelder, D., Schloter-Hai, B., Kublik, S., Granitsiotis, M. S., Boschetto, P., Stendardo, M., Barta, I., Dome, B., Deleuze, J. F., Boland, A., Muller-Quernheim, J., Prasse, A., Welte, T., Hohlfeld, J. M., Subramanian, D., Parr, D., Gut, I. G., Greulich, T., ... Castell, W. Z. (2017). Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome. PLoS ONE, 12(7), Article e0180859. https://doi.org/10.1371/journal.pone.0180859

@article{21115e39ca50442a864389d17b71f6aa,

title = "Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome",

abstract = "Background Changes in microbial community composition in the lung of patients suffering from moderate to severe COPD have been well documented. However, knowledge about specific microbiome structures in the human lung associated with CT defined abnormalities is limited. Methods Bacterial community composition derived from brush samples from lungs of 16 patients suffering from different CT defined subtypes of COPD and 9 healthy subjects was analyzed using a cultivation independent barcoding approach applying 454-pyrosequencing of 16S rRNA gene fragment amplicons. Results We could show that bacterial community composition in patients with changes in CT (either airway or emphysema type changes, designated as severe subtypes) was different from community composition in lungs of patients without visible changes in CT as well as from healthy subjects (designated as mild COPD subtype and control group) (PC1, Padj = 0.002). Higher abundance of Prevotella in samples from patients with mild COPD subtype and from controls and of Streptococcus in the severe subtype cases mainly contributed to the separation of bacterial communities of subjects. No significant effects of treatment with inhaled glucocorticoids on bacterial community composition were detected within COPD cases with and without abnormalities in CT in PCoA. Co-occurrence analysis suggests the presence of networks of co-occurring bacteria. Four communities of positively correlated bacteria were revealed. The microbial communities can clearly be distinguished by their associations with the CT defined disease phenotype. Conclusion Our findings indicate that CT detectable structural changes in the lung of COPD patients, which we termed severe subtypes, are associated with alterations in bacterial communities, which may induce further changes in the interaction between microbes and host cells. This might result in a changed interplay with the host immune system.",

author = "Marion Engel and David Endesfelder and Brigitte Schloter-Hai and Susanne Kublik and Granitsiotis, {Michael S.} and Piera Boschetto and Mariarita Stendardo and Imre Barta and Balazs Dome and Deleuze, {Jean Francois} and Anne Boland and Joachim Muller-Quernheim and Antje Prasse and Tobias Welte and Hohlfeld, {Jens M.} and Deepak Subramanian and David Parr and Gut, {Ivo Glynne} and Timm Greulich and Koczulla, {Andreas Rembert} and Adam Nowinski and Dorota Gorecka and Dave Singh and Sumit Gupta and Brightling, {Christopher E} and Harald Hoffmann and Marion Frankenberger and Hofer, {Thomas P} and Dorothe Burggraf and Neumann, {Marion Heiss} and Loems Ziegler-Heitbrock and Michael Schloter and Castell, {Wolfgang Zu}",

year = "2017",

month = jul,

doi = "10.1371/journal.pone.0180859",

language = "English",

volume = "12",

journal = "PLoS ONE",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "7",

}

Engel, M, Endesfelder, D, Schloter-Hai, B, Kublik, S, Granitsiotis, MS, Boschetto, P, Stendardo, M, Barta, I, Dome, B, Deleuze, JF, Boland, A, Muller-Quernheim, J, Prasse, A, Welte, T, Hohlfeld, JM, Subramanian, D, Parr, D, Gut, IG, Greulich, T, Koczulla, AR, Nowinski, A, Gorecka, D, Singh, D, Gupta, S, Brightling, CE, Hoffmann, H, Frankenberger, M, Hofer, TP, Burggraf, D, Neumann, MH, Ziegler-Heitbrock, L, Schloter, M & Castell, WZ 2017, 'Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome', PLoS ONE, vol. 12, no. 7, e0180859. https://doi.org/10.1371/journal.pone.0180859

TY - JOUR

T1 - Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome

AU - Engel, Marion

AU - Endesfelder, David

AU - Schloter-Hai, Brigitte

AU - Kublik, Susanne

AU - Granitsiotis, Michael S.

AU - Boschetto, Piera

AU - Stendardo, Mariarita

AU - Barta, Imre

AU - Dome, Balazs

AU - Deleuze, Jean Francois

AU - Boland, Anne

AU - Muller-Quernheim, Joachim

AU - Prasse, Antje

AU - Welte, Tobias

AU - Hohlfeld, Jens M.

AU - Subramanian, Deepak

AU - Parr, David

AU - Gut, Ivo Glynne

AU - Greulich, Timm

AU - Koczulla, Andreas Rembert

AU - Nowinski, Adam

AU - Gorecka, Dorota

AU - Singh, Dave

AU - Gupta, Sumit

AU - Brightling, Christopher E

AU - Hoffmann, Harald

AU - Frankenberger, Marion

AU - Hofer, Thomas P

AU - Burggraf, Dorothe

AU - Neumann, Marion Heiss

AU - Ziegler-Heitbrock, Loems

AU - Schloter, Michael

AU - Castell, Wolfgang Zu

PY - 2017/7

Y1 - 2017/7

N2 - Background Changes in microbial community composition in the lung of patients suffering from moderate to severe COPD have been well documented. However, knowledge about specific microbiome structures in the human lung associated with CT defined abnormalities is limited. Methods Bacterial community composition derived from brush samples from lungs of 16 patients suffering from different CT defined subtypes of COPD and 9 healthy subjects was analyzed using a cultivation independent barcoding approach applying 454-pyrosequencing of 16S rRNA gene fragment amplicons. Results We could show that bacterial community composition in patients with changes in CT (either airway or emphysema type changes, designated as severe subtypes) was different from community composition in lungs of patients without visible changes in CT as well as from healthy subjects (designated as mild COPD subtype and control group) (PC1, Padj = 0.002). Higher abundance of Prevotella in samples from patients with mild COPD subtype and from controls and of Streptococcus in the severe subtype cases mainly contributed to the separation of bacterial communities of subjects. No significant effects of treatment with inhaled glucocorticoids on bacterial community composition were detected within COPD cases with and without abnormalities in CT in PCoA. Co-occurrence analysis suggests the presence of networks of co-occurring bacteria. Four communities of positively correlated bacteria were revealed. The microbial communities can clearly be distinguished by their associations with the CT defined disease phenotype. Conclusion Our findings indicate that CT detectable structural changes in the lung of COPD patients, which we termed severe subtypes, are associated with alterations in bacterial communities, which may induce further changes in the interaction between microbes and host cells. This might result in a changed interplay with the host immune system.

AB - Background Changes in microbial community composition in the lung of patients suffering from moderate to severe COPD have been well documented. However, knowledge about specific microbiome structures in the human lung associated with CT defined abnormalities is limited. Methods Bacterial community composition derived from brush samples from lungs of 16 patients suffering from different CT defined subtypes of COPD and 9 healthy subjects was analyzed using a cultivation independent barcoding approach applying 454-pyrosequencing of 16S rRNA gene fragment amplicons. Results We could show that bacterial community composition in patients with changes in CT (either airway or emphysema type changes, designated as severe subtypes) was different from community composition in lungs of patients without visible changes in CT as well as from healthy subjects (designated as mild COPD subtype and control group) (PC1, Padj = 0.002). Higher abundance of Prevotella in samples from patients with mild COPD subtype and from controls and of Streptococcus in the severe subtype cases mainly contributed to the separation of bacterial communities of subjects. No significant effects of treatment with inhaled glucocorticoids on bacterial community composition were detected within COPD cases with and without abnormalities in CT in PCoA. Co-occurrence analysis suggests the presence of networks of co-occurring bacteria. Four communities of positively correlated bacteria were revealed. The microbial communities can clearly be distinguished by their associations with the CT defined disease phenotype. Conclusion Our findings indicate that CT detectable structural changes in the lung of COPD patients, which we termed severe subtypes, are associated with alterations in bacterial communities, which may induce further changes in the interaction between microbes and host cells. This might result in a changed interplay with the host immune system.

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U2 - 10.1371/journal.pone.0180859

DO - 10.1371/journal.pone.0180859

M3 - Article

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SN - 1932-6203

VL - 12

JO - PLoS ONE

JF - PLoS ONE

IS - 7

M1 - e0180859

ER -

Influence of lung CT changes in chronic obstructive pulmonary disease (COPD) on the human lung microbiome

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