Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

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Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation. / Thomas, Andrew Maltez; Manghi, Paolo; Asnicar, Francesco; Pasolli, Edoardo; Armanini, Federica; Zolfo, Moreno; Beghini, Francesco; Manara, Serena; Karcher, Nicolai; Pozzi, Chiara; Gandini, Sara; Serrano, Davide; Tarallo, Sonia; Francavilla, Antonio; Gallo, Gaetano; Trompetto, Mario; Ferrero, Giulio; Mizutani, Sayaka; Shiroma, Hirotsugu; Shiba, Satoshi; Shibata, Tatsuhiro; Yachida, Shinichi; Yamada, Takuji; Wirbel, Jakob; Schrotz-King, Petra; Ulrich, Cornelia M; Brenner, Hermann; Arumugam, Manimozhiyan; Bork, Peer; Zeller, Georg; Cordero, Francesca; Dias-Neto, Emmanuel; Setubal, João Carlos; Tett, Adrian; Pardini, Barbara; Rescigno, Maria; Waldron, Levi; Naccarati, Alessio; Segata, Nicola.

I: Nature Medicine, Bind 25, Nr. 4, 2019, s. 667-678.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Thomas, AM, Manghi, P, Asnicar, F, Pasolli, E, Armanini, F, Zolfo, M, Beghini, F, Manara, S, Karcher, N, Pozzi, C, Gandini, S, Serrano, D, Tarallo, S, Francavilla, A, Gallo, G, Trompetto, M, Ferrero, G, Mizutani, S, Shiroma, H, Shiba, S, Shibata, T, Yachida, S, Yamada, T, Wirbel, J, Schrotz-King, P, Ulrich, CM, Brenner, H, Arumugam, M, Bork, P, Zeller, G, Cordero, F, Dias-Neto, E, Setubal, JC, Tett, A, Pardini, B, Rescigno, M, Waldron, L, Naccarati, A & Segata, N 2019, 'Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation', Nature Medicine, bind 25, nr. 4, s. 667-678. https://doi.org/10.1038/s41591-019-0405-7

APA

Thomas, A. M., Manghi, P., Asnicar, F., Pasolli, E., Armanini, F., Zolfo, M., Beghini, F., Manara, S., Karcher, N., Pozzi, C., Gandini, S., Serrano, D., Tarallo, S., Francavilla, A., Gallo, G., Trompetto, M., Ferrero, G., Mizutani, S., Shiroma, H., ... Segata, N. (2019). Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation. Nature Medicine, 25(4), 667-678. https://doi.org/10.1038/s41591-019-0405-7

Vancouver

Thomas AM, Manghi P, Asnicar F, Pasolli E, Armanini F, Zolfo M o.a. Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation. Nature Medicine. 2019;25(4):667-678. https://doi.org/10.1038/s41591-019-0405-7

Author

Thomas, Andrew Maltez ; Manghi, Paolo ; Asnicar, Francesco ; Pasolli, Edoardo ; Armanini, Federica ; Zolfo, Moreno ; Beghini, Francesco ; Manara, Serena ; Karcher, Nicolai ; Pozzi, Chiara ; Gandini, Sara ; Serrano, Davide ; Tarallo, Sonia ; Francavilla, Antonio ; Gallo, Gaetano ; Trompetto, Mario ; Ferrero, Giulio ; Mizutani, Sayaka ; Shiroma, Hirotsugu ; Shiba, Satoshi ; Shibata, Tatsuhiro ; Yachida, Shinichi ; Yamada, Takuji ; Wirbel, Jakob ; Schrotz-King, Petra ; Ulrich, Cornelia M ; Brenner, Hermann ; Arumugam, Manimozhiyan ; Bork, Peer ; Zeller, Georg ; Cordero, Francesca ; Dias-Neto, Emmanuel ; Setubal, João Carlos ; Tett, Adrian ; Pardini, Barbara ; Rescigno, Maria ; Waldron, Levi ; Naccarati, Alessio ; Segata, Nicola. / Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation. I: Nature Medicine. 2019 ; Bind 25, Nr. 4. s. 667-678.

Bibtex

@article{38965b005852423088336bea832fef05,

title = "Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation",

abstract = "Several studies have investigated links between the gut microbiome and colorectal cancer (CRC), but questions remain about the replicability of biomarkers across cohorts and populations. We performed a meta-analysis of five publicly available datasets and two new cohorts and validated the findings on two additional cohorts, considering in total 969 fecal metagenomes. Unlike microbiome shifts associated with gastrointestinal syndromes, the gut microbiome in CRC showed reproducibly higher richness than controls (P < 0.01), partially due to expansions of species typically derived from the oral cavity. Meta-analysis of the microbiome functional potential identified gluconeogenesis and the putrefaction and fermentation pathways as being associated with CRC, whereas the stachyose and starch degradation pathways were associated with controls. Predictive microbiome signatures for CRC trained on multiple datasets showed consistently high accuracy in datasets not considered for model training and independent validation cohorts (average area under the curve, 0.84). Pooled analysis of raw metagenomes showed that the choline trimethylamine-lyase gene was overabundant in CRC (P = 0.001), identifying a relationship between microbiome choline metabolism and CRC. The combined analysis of heterogeneous CRC cohorts thus identified reproducible microbiome biomarkers and accurate disease-predictive models that can form the basis for clinical prognostic tests and hypothesis-driven mechanistic studies.",

author = "Thomas, {Andrew Maltez} and Paolo Manghi and Francesco Asnicar and Edoardo Pasolli and Federica Armanini and Moreno Zolfo and Francesco Beghini and Serena Manara and Nicolai Karcher and Chiara Pozzi and Sara Gandini and Davide Serrano and Sonia Tarallo and Antonio Francavilla and Gaetano Gallo and Mario Trompetto and Giulio Ferrero and Sayaka Mizutani and Hirotsugu Shiroma and Satoshi Shiba and Tatsuhiro Shibata and Shinichi Yachida and Takuji Yamada and Jakob Wirbel and Petra Schrotz-King and Ulrich, {Cornelia M} and Hermann Brenner and Manimozhiyan Arumugam and Peer Bork and Georg Zeller and Francesca Cordero and Emmanuel Dias-Neto and Setubal, {Jo{\~a}o Carlos} and Adrian Tett and Barbara Pardini and Maria Rescigno and Levi Waldron and Alessio Naccarati and Nicola Segata",

year = "2019",

doi = "10.1038/s41591-019-0405-7",

language = "English",

volume = "25",

pages = "667--678",

journal = "Nature Medicine",

issn = "1078-8956",

publisher = "nature publishing group",

number = "4",

}

RIS

TY - JOUR

T1 - Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation

AU - Thomas, Andrew Maltez

AU - Manghi, Paolo

AU - Asnicar, Francesco

AU - Pasolli, Edoardo

AU - Armanini, Federica

AU - Zolfo, Moreno

AU - Beghini, Francesco

AU - Manara, Serena

AU - Karcher, Nicolai

AU - Pozzi, Chiara

AU - Gandini, Sara

AU - Serrano, Davide

AU - Tarallo, Sonia

AU - Francavilla, Antonio

AU - Gallo, Gaetano

AU - Trompetto, Mario

AU - Ferrero, Giulio

AU - Mizutani, Sayaka

AU - Shiroma, Hirotsugu

AU - Shiba, Satoshi

AU - Shibata, Tatsuhiro

AU - Yachida, Shinichi

AU - Yamada, Takuji

AU - Wirbel, Jakob

AU - Schrotz-King, Petra

AU - Ulrich, Cornelia M

AU - Brenner, Hermann

AU - Arumugam, Manimozhiyan

AU - Bork, Peer

AU - Zeller, Georg

AU - Cordero, Francesca

AU - Dias-Neto, Emmanuel

AU - Setubal, João Carlos

AU - Tett, Adrian

AU - Pardini, Barbara

AU - Rescigno, Maria

AU - Waldron, Levi

AU - Naccarati, Alessio

AU - Segata, Nicola

PY - 2019

Y1 - 2019

N2 - Several studies have investigated links between the gut microbiome and colorectal cancer (CRC), but questions remain about the replicability of biomarkers across cohorts and populations. We performed a meta-analysis of five publicly available datasets and two new cohorts and validated the findings on two additional cohorts, considering in total 969 fecal metagenomes. Unlike microbiome shifts associated with gastrointestinal syndromes, the gut microbiome in CRC showed reproducibly higher richness than controls (P < 0.01), partially due to expansions of species typically derived from the oral cavity. Meta-analysis of the microbiome functional potential identified gluconeogenesis and the putrefaction and fermentation pathways as being associated with CRC, whereas the stachyose and starch degradation pathways were associated with controls. Predictive microbiome signatures for CRC trained on multiple datasets showed consistently high accuracy in datasets not considered for model training and independent validation cohorts (average area under the curve, 0.84). Pooled analysis of raw metagenomes showed that the choline trimethylamine-lyase gene was overabundant in CRC (P = 0.001), identifying a relationship between microbiome choline metabolism and CRC. The combined analysis of heterogeneous CRC cohorts thus identified reproducible microbiome biomarkers and accurate disease-predictive models that can form the basis for clinical prognostic tests and hypothesis-driven mechanistic studies.

AB - Several studies have investigated links between the gut microbiome and colorectal cancer (CRC), but questions remain about the replicability of biomarkers across cohorts and populations. We performed a meta-analysis of five publicly available datasets and two new cohorts and validated the findings on two additional cohorts, considering in total 969 fecal metagenomes. Unlike microbiome shifts associated with gastrointestinal syndromes, the gut microbiome in CRC showed reproducibly higher richness than controls (P < 0.01), partially due to expansions of species typically derived from the oral cavity. Meta-analysis of the microbiome functional potential identified gluconeogenesis and the putrefaction and fermentation pathways as being associated with CRC, whereas the stachyose and starch degradation pathways were associated with controls. Predictive microbiome signatures for CRC trained on multiple datasets showed consistently high accuracy in datasets not considered for model training and independent validation cohorts (average area under the curve, 0.84). Pooled analysis of raw metagenomes showed that the choline trimethylamine-lyase gene was overabundant in CRC (P = 0.001), identifying a relationship between microbiome choline metabolism and CRC. The combined analysis of heterogeneous CRC cohorts thus identified reproducible microbiome biomarkers and accurate disease-predictive models that can form the basis for clinical prognostic tests and hypothesis-driven mechanistic studies.

U2 - 10.1038/s41591-019-0405-7

DO - 10.1038/s41591-019-0405-7

M3 - Journal article

C2 - 30936548

VL - 25

SP - 667

EP - 678

JO - Nature Medicine

JF - Nature Medicine

SN - 1078-8956

IS - 4

ER -

ID: 216515910