Author
Listed:
- Takeshi Tanoue
(Keio University School of Medicine
JSR-Keio University Medical and Chemical Innovation Center
RIKEN Center for Integrative Medical Sciences)
- Satoru Morita
(Keio University School of Medicine)
- Damian R. Plichta
(Broad Institute of MIT and Harvard)
- Ashwin N. Skelly
(Keio University School of Medicine)
- Wataru Suda
(RIKEN Center for Integrative Medical Sciences
Waseda University
The University of Tokyo)
- Yuki Sugiura
(Keio University School of Medicine)
- Seiko Narushima
(Keio University School of Medicine
RIKEN Center for Integrative Medical Sciences)
- Hera Vlamakis
(Broad Institute of MIT and Harvard)
- Iori Motoo
(RIKEN Center for Integrative Medical Sciences)
- Kayoko Sugita
(Keio University School of Medicine)
- Atsushi Shiota
(Keio University School of Medicine
JSR-Keio University Medical and Chemical Innovation Center)
- Kozue Takeshita
(Keio University School of Medicine)
- Keiko Yasuma-Mitobe
(Keio University School of Medicine)
- Dieter Riethmacher
(Nazarbayev University School of Medicine)
- Tsuneyasu Kaisho
(Wakayama Medical University)
- Jason M. Norman
(Vedanta Biosciences)
- Daniel Mucida
(The Rockefeller University)
- Makoto Suematsu
(Keio University School of Medicine)
- Tomonori Yaguchi
(Keio University School of Medicine)
- Vanni Bucci
(University of Massachusetts Dartmouth)
- Takashi Inoue
(Central Institute for Experimental Animals)
- Yutaka Kawakami
(Keio University School of Medicine)
- Bernat Olle
(Vedanta Biosciences)
- Bruce Roberts
(Vedanta Biosciences)
- Masahira Hattori
(RIKEN Center for Integrative Medical Sciences
Waseda University
The University of Tokyo)
- Ramnik J. Xavier
(Broad Institute of MIT and Harvard
Massachusetts General Hospital and Harvard Medical School)
- Koji Atarashi
(Keio University School of Medicine
JSR-Keio University Medical and Chemical Innovation Center
RIKEN Center for Integrative Medical Sciences)
- Kenya Honda
(Keio University School of Medicine
JSR-Keio University Medical and Chemical Innovation Center
RIKEN Center for Integrative Medical Sciences)
Abstract
There is a growing appreciation for the importance of the gut microbiota as a therapeutic target in various diseases. However, there are only a handful of known commensal strains that can potentially be used to manipulate host physiological functions. Here we isolate a consortium of 11 bacterial strains from healthy human donor faeces that is capable of robustly inducing interferon-γ-producing CD8 T cells in the intestine. These 11 strains act together to mediate the induction without causing inflammation in a manner that is dependent on CD103+ dendritic cells and major histocompatibility (MHC) class Ia molecules. Colonization of mice with the 11-strain mixture enhances both host resistance against Listeria monocytogenes infection and the therapeutic efficacy of immune checkpoint inhibitors in syngeneic tumour models. The 11 strains primarily represent rare, low-abundance components of the human microbiome, and thus have great potential as broadly effective biotherapeutics.
Suggested Citation
Takeshi Tanoue & Satoru Morita & Damian R. Plichta & Ashwin N. Skelly & Wataru Suda & Yuki Sugiura & Seiko Narushima & Hera Vlamakis & Iori Motoo & Kayoko Sugita & Atsushi Shiota & Kozue Takeshita & K, 2019.
"A defined commensal consortium elicits CD8 T cells and anti-cancer immunity,"
Nature, Nature, vol. 565(7741), pages 600-605, January.
Handle:
RePEc:nat:nature:v:565:y:2019:i:7741:d:10.1038_s41586-019-0878-z
DOI: 10.1038/s41586-019-0878-z
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