Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer. / Wirbel, Jakob; Pyl, Paul Theodor; Kartal, Ece; Zych, Konrad; Kashani, Alireza; Milanese, Alessio; Fleck, Jonas S; Voigt, Anita Y; Palleja, Albert; Ponnudurai, Ruby; Sunagawa, Shinichi; Coelho, Luis Pedro; Schrotz-King, Petra; Vogtmann, Emily; Habermann, Nina; Niméus, Emma; Thomas, Andrew M; Manghi, Paolo; Gandini, Sara; Serrano, Davide; Mizutani, Sayaka; Shiroma, Hirotsugu; Shiba, Satoshi; Shibata, Tatsuhiro; Yachida, Shinichi; Yamada, Takuji; Waldron, Levi; Naccarati, Alessio; Segata, Nicola; Sinha, Rashmi; Ulrich, Cornelia M; Brenner, Hermann; Arumugam, Manimozhiyan; Bork, Peer; Zeller, Georg.

In: Nature Medicine, Vol. 25, No. 4, 2019, p. 679-689.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Wirbel, J, Pyl, PT, Kartal, E, Zych, K, Kashani, A, Milanese, A, Fleck, JS, Voigt, AY, Palleja, A, Ponnudurai, R, Sunagawa, S, Coelho, LP, Schrotz-King, P, Vogtmann, E, Habermann, N, Niméus, E, Thomas, AM, Manghi, P, Gandini, S, Serrano, D, Mizutani, S, Shiroma, H, Shiba, S, Shibata, T, Yachida, S, Yamada, T, Waldron, L, Naccarati, A, Segata, N, Sinha, R, Ulrich, CM, Brenner, H, Arumugam, M, Bork, P & Zeller, G 2019, 'Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer', Nature Medicine, vol. 25, no. 4, pp. 679-689. https://doi.org/10.1038/s41591-019-0406-6

APA

Wirbel, J., Pyl, P. T., Kartal, E., Zych, K., Kashani, A., Milanese, A., Fleck, J. S., Voigt, A. Y., Palleja, A., Ponnudurai, R., Sunagawa, S., Coelho, L. P., Schrotz-King, P., Vogtmann, E., Habermann, N., Niméus, E., Thomas, A. M., Manghi, P., Gandini, S., ... Zeller, G. (2019). Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer. Nature Medicine, 25(4), 679-689. https://doi.org/10.1038/s41591-019-0406-6

Vancouver

Wirbel J, Pyl PT, Kartal E, Zych K, Kashani A, Milanese A et al. Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer. Nature Medicine. 2019;25(4):679-689. https://doi.org/10.1038/s41591-019-0406-6

Author

Wirbel, Jakob ; Pyl, Paul Theodor ; Kartal, Ece ; Zych, Konrad ; Kashani, Alireza ; Milanese, Alessio ; Fleck, Jonas S ; Voigt, Anita Y ; Palleja, Albert ; Ponnudurai, Ruby ; Sunagawa, Shinichi ; Coelho, Luis Pedro ; Schrotz-King, Petra ; Vogtmann, Emily ; Habermann, Nina ; Niméus, Emma ; Thomas, Andrew M ; Manghi, Paolo ; Gandini, Sara ; Serrano, Davide ; Mizutani, Sayaka ; Shiroma, Hirotsugu ; Shiba, Satoshi ; Shibata, Tatsuhiro ; Yachida, Shinichi ; Yamada, Takuji ; Waldron, Levi ; Naccarati, Alessio ; Segata, Nicola ; Sinha, Rashmi ; Ulrich, Cornelia M ; Brenner, Hermann ; Arumugam, Manimozhiyan ; Bork, Peer ; Zeller, Georg. / Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer. In: Nature Medicine. 2019 ; Vol. 25, No. 4. pp. 679-689.

Bibtex

@article{b7a84709a7c1428cb2c28d53f77ff2ee,
title = "Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer",
abstract = "Association studies have linked microbiome alterations with many human diseases. However, they have not always reported consistent results, thereby necessitating cross-study comparisons. Here, a meta-analysis of eight geographically and technically diverse fecal shotgun metagenomic studies of colorectal cancer (CRC, n = 768), which was controlled for several confounders, identified a core set of 29 species significantly enriched in CRC metagenomes (false discovery rate (FDR) < 1 × 10-5). CRC signatures derived from single studies maintained their accuracy in other studies. By training on multiple studies, we improved detection accuracy and disease specificity for CRC. Functional analysis of CRC metagenomes revealed enriched protein and mucin catabolism genes and depleted carbohydrate degradation genes. Moreover, we inferred elevated production of secondary bile acids from CRC metagenomes, suggesting a metabolic link between cancer-associated gut microbes and a fat- and meat-rich diet. Through extensive validations, this meta-analysis firmly establishes globally generalizable, predictive taxonomic and functional microbiome CRC signatures as a basis for future diagnostics.",
author = "Jakob Wirbel and Pyl, {Paul Theodor} and Ece Kartal and Konrad Zych and Alireza Kashani and Alessio Milanese and Fleck, {Jonas S} and Voigt, {Anita Y} and Albert Palleja and Ruby Ponnudurai and Shinichi Sunagawa and Coelho, {Luis Pedro} and Petra Schrotz-King and Emily Vogtmann and Nina Habermann and Emma Nim{\'e}us and Thomas, {Andrew M} and Paolo Manghi and Sara Gandini and Davide Serrano and Sayaka Mizutani and Hirotsugu Shiroma and Satoshi Shiba and Tatsuhiro Shibata and Shinichi Yachida and Takuji Yamada and Levi Waldron and Alessio Naccarati and Nicola Segata and Rashmi Sinha and Ulrich, {Cornelia M} and Hermann Brenner and Manimozhiyan Arumugam and Peer Bork and Georg Zeller",
year = "2019",
doi = "10.1038/s41591-019-0406-6",
language = "English",
volume = "25",
pages = "679--689",
journal = "Nature Medicine",
issn = "1078-8956",
publisher = "nature publishing group",
number = "4",

}

RIS

TY - JOUR

T1 - Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer

AU - Wirbel, Jakob

AU - Pyl, Paul Theodor

AU - Kartal, Ece

AU - Zych, Konrad

AU - Kashani, Alireza

AU - Milanese, Alessio

AU - Fleck, Jonas S

AU - Voigt, Anita Y

AU - Palleja, Albert

AU - Ponnudurai, Ruby

AU - Sunagawa, Shinichi

AU - Coelho, Luis Pedro

AU - Schrotz-King, Petra

AU - Vogtmann, Emily

AU - Habermann, Nina

AU - Niméus, Emma

AU - Thomas, Andrew M

AU - Manghi, Paolo

AU - Gandini, Sara

AU - Serrano, Davide

AU - Mizutani, Sayaka

AU - Shiroma, Hirotsugu

AU - Shiba, Satoshi

AU - Shibata, Tatsuhiro

AU - Yachida, Shinichi

AU - Yamada, Takuji

AU - Waldron, Levi

AU - Naccarati, Alessio

AU - Segata, Nicola

AU - Sinha, Rashmi

AU - Ulrich, Cornelia M

AU - Brenner, Hermann

AU - Arumugam, Manimozhiyan

AU - Bork, Peer

AU - Zeller, Georg

PY - 2019

Y1 - 2019

N2 - Association studies have linked microbiome alterations with many human diseases. However, they have not always reported consistent results, thereby necessitating cross-study comparisons. Here, a meta-analysis of eight geographically and technically diverse fecal shotgun metagenomic studies of colorectal cancer (CRC, n = 768), which was controlled for several confounders, identified a core set of 29 species significantly enriched in CRC metagenomes (false discovery rate (FDR) < 1 × 10-5). CRC signatures derived from single studies maintained their accuracy in other studies. By training on multiple studies, we improved detection accuracy and disease specificity for CRC. Functional analysis of CRC metagenomes revealed enriched protein and mucin catabolism genes and depleted carbohydrate degradation genes. Moreover, we inferred elevated production of secondary bile acids from CRC metagenomes, suggesting a metabolic link between cancer-associated gut microbes and a fat- and meat-rich diet. Through extensive validations, this meta-analysis firmly establishes globally generalizable, predictive taxonomic and functional microbiome CRC signatures as a basis for future diagnostics.

AB - Association studies have linked microbiome alterations with many human diseases. However, they have not always reported consistent results, thereby necessitating cross-study comparisons. Here, a meta-analysis of eight geographically and technically diverse fecal shotgun metagenomic studies of colorectal cancer (CRC, n = 768), which was controlled for several confounders, identified a core set of 29 species significantly enriched in CRC metagenomes (false discovery rate (FDR) < 1 × 10-5). CRC signatures derived from single studies maintained their accuracy in other studies. By training on multiple studies, we improved detection accuracy and disease specificity for CRC. Functional analysis of CRC metagenomes revealed enriched protein and mucin catabolism genes and depleted carbohydrate degradation genes. Moreover, we inferred elevated production of secondary bile acids from CRC metagenomes, suggesting a metabolic link between cancer-associated gut microbes and a fat- and meat-rich diet. Through extensive validations, this meta-analysis firmly establishes globally generalizable, predictive taxonomic and functional microbiome CRC signatures as a basis for future diagnostics.

U2 - 10.1038/s41591-019-0406-6

DO - 10.1038/s41591-019-0406-6

M3 - Journal article

C2 - 30936547

VL - 25

SP - 679

EP - 689

JO - Nature Medicine

JF - Nature Medicine

SN - 1078-8956

IS - 4

ER -

ID: 216516357