PO.TB10.14 · 肿瘤生物学

Biodiversity and biogeography of the multi-kingdom cancer microbiome

海报缩略图:Biodiversity and biogeography of the multi-kingdom cancer microbiome
编号 4901 展板 17 时间 4/21 09:00–12:00 区域 Section 29 主讲 Anders Dohlman, PhD
分会场 Microbiome-Tumor-Immune Crosstalk
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作者与单位

Anders B. Dohlman1, Robin Mjelle2, Henry M. Wood3, Alaina Shumate1, Iris T.-h. Lee1, Gianmarco Piccinno4, Phil Quirke3, Curtis Huttenhower5, Nicola Segata6, Matthew L. Meyerson1

1Dana-Farber Cancer Institute, Boston, MA,2Norwegian University of Science and Technology, Trondheim, Norway,3Leeds Institute of Molecular Medicine, Leeds, United Kingdom,4University of Trento, Trento, Italy,5Harvard T.H. Chan School of Public Health, Boston, MA,6Computational Metagenomics Lab, University of Trento, Trento, Italy

摘要 Abstract

There is growing evidence that microorganisms represent an important component of the tumor microenvironment. However, conflicting reports regarding the cancer microbiome have left the extent of microbial presence across cancer types unclear, highlighting the need for more robust methods for identifying tumor-associated microorganisms. Leveraging the completed human reference genome, we built a host-subtraction and microbial classification pipeline to accurately identify tumor-associated microorganisms in whole-genome sequencing data, which we validated and benchmarked on in silico and in vitro mixtures of human and microbial DNA. We used this pipeline to perform the largest pan-cancer microbiome analysis to date, spanning 16,369 high-depth tumor whole genomes from the UK 100,000 Genomes Project. After decontamination, microbial signatures were indistinguishable from background in most cancer types. However, in oral, esophageal, gastric, and colorectal cancers, we detected multi-kingdom polymicrobial communities, including bacteria, fungi, viruses, and archaea. In some oral and colorectal cancers, we also detected the parasite Trichomonas vaginalis . These microbial communities varied by tumor site and subtype, with increased microbial colonization of microsatellite-instable and POLE/POLD1-mutated tumors. This pattern was driven by a correlation between microbial load and tumor mutation burden across cancer types that was independent of genomic subtype. Additionally, we observed an over tenfold depletion of Akkermansia muciniphila in early-onset colorectal cancer. Together, our analysis helps resolve the microbial landscape of cancer and provides a new tumor microbiome atlas for future studies.
利益披露 Disclosure
A. B. Dohlman, None.

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