Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes

Welles Robinson; Joshua K. Stone; Fiorella Schischlik; Billel Gasmi; Michael C. Kelly; Charlie Seibert; Kimia Dadkhah; E. Michael Gertz; Joo Sang Lee; Kaiyuan Zhu; Lichun Ma; Xin Wei Wang; S. Cenk Sahinalp; Rob Patro; Mark D.M. Leiserson; Curtis C. Harris; Alejandro A. Schäffer; Eytan Ruppin

doi:10.1126/sciadv.adj7402

Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes

Welles Robinson
, Joshua K. Stone
, Fiorella Schischlik
, Billel Gasmi
, Michael C. Kelly
, Charlie Seibert
, Kimia Dadkhah
, E. Michael Gertz
, Joo Sang Lee
, Kaiyuan Zhu
, Lichun Ma
, Xin Wei Wang
, S. Cenk Sahinalp
, Rob Patro
, Mark D.M. Leiserson
, Curtis C. Harris
, Alejandro A. Schäffer
, Eytan Ruppin

National Institutes of Health
University of Maryland, College Park
University College London
Leidos Inc
Sungkyunkwan University
Indiana University Bloomington
University of California at San Diego

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

20 Scopus citations

Abstract

The study of the tumor microbiome has been garnering increased attention. We developed a computational pipeline (CSI-Microbes) for identifying microbial reads from single-cell RNA sequencing (scRNA-seq) data and for analyzing differential abundance of taxa. Using a series of controlled experiments and analyses, we performed the first systematic evaluation of the efficacy of recovering microbial unique molecular identifiers by multiple scRNA-seq technologies, which identified the newer 10x chemistries (3' v3 and 5') as the best suited approach. We analyzed patient esophageal and colorectal carcinomas and found that reads from distinct genera tend to co-occur in the same host cells, testifying to possible intracellular polymicrobial interactions. Microbial reads are disproportionately abundant within myeloid cells that up-regulate proinflammatory cytokines like IL1B and CXCL8, while infected tumor cells up-regulate antigen processing and presentation pathways. These results show that myeloid cells with bacteria engulfed are a major source of bacterial RNA within the tumor microenvironment (TME) and may inflame the TME and influence immunotherapy response.

Original language	English
Article number	adj7402
Journal	Science Advances
Volume	10
Issue number	27
DOIs	https://doi.org/10.1126/sciadv.adj7402
State	Published - Jul 2024
Externally published	Yes

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SDG 3 Good Health and Well-being

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Robinson, W., Stone, J. K., Schischlik, F., Gasmi, B., Kelly, M. C., Seibert, C., Dadkhah, K., Gertz, E. M., Lee, J. S., Zhu, K., Ma, L., Wang, X. W., Sahinalp, S. C., Patro, R., Leiserson, M. D. M., Harris, C. C., Schäffer, A. A., & Ruppin, E. (2024). Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes. Science Advances, 10(27), Article adj7402. https://doi.org/10.1126/sciadv.adj7402

@article{d2308ac3b7874d03ad3baacce98adb69,

title = "Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes",

abstract = "The study of the tumor microbiome has been garnering increased attention. We developed a computational pipeline (CSI-Microbes) for identifying microbial reads from single-cell RNA sequencing (scRNA-seq) data and for analyzing differential abundance of taxa. Using a series of controlled experiments and analyses, we performed the first systematic evaluation of the efficacy of recovering microbial unique molecular identifiers by multiple scRNA-seq technologies, which identified the newer 10x chemistries (3' v3 and 5') as the best suited approach. We analyzed patient esophageal and colorectal carcinomas and found that reads from distinct genera tend to co-occur in the same host cells, testifying to possible intracellular polymicrobial interactions. Microbial reads are disproportionately abundant within myeloid cells that up-regulate proinflammatory cytokines like IL1B and CXCL8, while infected tumor cells up-regulate antigen processing and presentation pathways. These results show that myeloid cells with bacteria engulfed are a major source of bacterial RNA within the tumor microenvironment (TME) and may inflame the TME and influence immunotherapy response.",

author = "Welles Robinson and Stone, \{Joshua K.\} and Fiorella Schischlik and Billel Gasmi and Kelly, \{Michael C.\} and Charlie Seibert and Kimia Dadkhah and Gertz, \{E. Michael\} and Lee, \{Joo Sang\} and Kaiyuan Zhu and Lichun Ma and Wang, \{Xin Wei\} and Sahinalp, \{S. Cenk\} and Rob Patro and Leiserson, \{Mark D.M.\} and Harris, \{Curtis C.\} and Sch{\"a}ffer, \{Alejandro A.\} and Eytan Ruppin",

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year = "2024",

month = jul,

doi = "10.1126/sciadv.adj7402",

language = "English",

volume = "10",

journal = "Science Advances",

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Robinson, W, Stone, JK, Schischlik, F, Gasmi, B, Kelly, MC, Seibert, C, Dadkhah, K, Gertz, EM, Lee, JS, Zhu, K, Ma, L, Wang, XW, Sahinalp, SC, Patro, R, Leiserson, MDM, Harris, CC, Schäffer, AA & Ruppin, E 2024, 'Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes', Science Advances, vol. 10, no. 27, adj7402. https://doi.org/10.1126/sciadv.adj7402

TY - JOUR

T1 - Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes

AU - Robinson, Welles

AU - Stone, Joshua K.

AU - Schischlik, Fiorella

AU - Gasmi, Billel

AU - Kelly, Michael C.

AU - Seibert, Charlie

AU - Dadkhah, Kimia

AU - Gertz, E. Michael

AU - Lee, Joo Sang

AU - Zhu, Kaiyuan

AU - Ma, Lichun

AU - Wang, Xin Wei

AU - Sahinalp, S. Cenk

AU - Patro, Rob

AU - Leiserson, Mark D.M.

AU - Harris, Curtis C.

AU - Schäffer, Alejandro A.

AU - Ruppin, Eytan

PY - 2024/7

Y1 - 2024/7

N2 - The study of the tumor microbiome has been garnering increased attention. We developed a computational pipeline (CSI-Microbes) for identifying microbial reads from single-cell RNA sequencing (scRNA-seq) data and for analyzing differential abundance of taxa. Using a series of controlled experiments and analyses, we performed the first systematic evaluation of the efficacy of recovering microbial unique molecular identifiers by multiple scRNA-seq technologies, which identified the newer 10x chemistries (3' v3 and 5') as the best suited approach. We analyzed patient esophageal and colorectal carcinomas and found that reads from distinct genera tend to co-occur in the same host cells, testifying to possible intracellular polymicrobial interactions. Microbial reads are disproportionately abundant within myeloid cells that up-regulate proinflammatory cytokines like IL1B and CXCL8, while infected tumor cells up-regulate antigen processing and presentation pathways. These results show that myeloid cells with bacteria engulfed are a major source of bacterial RNA within the tumor microenvironment (TME) and may inflame the TME and influence immunotherapy response.

AB - The study of the tumor microbiome has been garnering increased attention. We developed a computational pipeline (CSI-Microbes) for identifying microbial reads from single-cell RNA sequencing (scRNA-seq) data and for analyzing differential abundance of taxa. Using a series of controlled experiments and analyses, we performed the first systematic evaluation of the efficacy of recovering microbial unique molecular identifiers by multiple scRNA-seq technologies, which identified the newer 10x chemistries (3' v3 and 5') as the best suited approach. We analyzed patient esophageal and colorectal carcinomas and found that reads from distinct genera tend to co-occur in the same host cells, testifying to possible intracellular polymicrobial interactions. Microbial reads are disproportionately abundant within myeloid cells that up-regulate proinflammatory cytokines like IL1B and CXCL8, while infected tumor cells up-regulate antigen processing and presentation pathways. These results show that myeloid cells with bacteria engulfed are a major source of bacterial RNA within the tumor microenvironment (TME) and may inflame the TME and influence immunotherapy response.

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DO - 10.1126/sciadv.adj7402

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AN - SCOPUS:85197697620

SN - 2375-2548

VL - 10

JO - Science Advances

JF - Science Advances

IS - 27

M1 - adj7402

ER -

Identification of intracellular bacteria from multiple single-cell RNA-seq platforms using CSI-Microbes

Abstract

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