Author
Listed:
- Munhyung Bae
(Harvard Medical School, Blavatnik Institute
Gachon University)
- Chelsi D. Cassilly
(Harvard Medical School, Blavatnik Institute)
- Xiaoxi Liu
(Harvard Medical School, Blavatnik Institute
Dana-Farber Cancer Institute)
- Sung-Moo Park
(Broad Institute of MIT and Harvard
Massachusetts General Hospital, Harvard Medical School
Massachusetts General Hospital, Harvard Medical School)
- Betsabeh Khoramian Tusi
(Broad Institute of MIT and Harvard
Massachusetts General Hospital, Harvard Medical School
Massachusetts General Hospital, Harvard Medical School)
- Xiangjun Chen
(Broad Institute of MIT and Harvard
Massachusetts General Hospital, Harvard Medical School
Massachusetts General Hospital, Harvard Medical School)
- Jaeyoung Kwon
(Harvard Medical School, Blavatnik Institute
Korea Institute of Science and Technology (KIST))
- Pavel Filipčík
(University of Otago
Harvard Medical School, Blavatnik Institute)
- Andrew S. Bolze
(Broad Institute of MIT and Harvard)
- Zehua Liu
(Broad Institute of MIT and Harvard)
- Hera Vlamakis
(Broad Institute of MIT and Harvard)
- Daniel B. Graham
(Broad Institute of MIT and Harvard
Massachusetts General Hospital, Harvard Medical School
Massachusetts General Hospital, Harvard Medical School)
- Sara J. Buhrlage
(Harvard Medical School, Blavatnik Institute
Dana-Farber Cancer Institute)
- Ramnik J. Xavier
(Broad Institute of MIT and Harvard
Massachusetts General Hospital, Harvard Medical School
Massachusetts General Hospital, Harvard Medical School)
- Jon Clardy
(Harvard Medical School, Blavatnik Institute)
Abstract
Multiple studies have established associations between human gut bacteria and host physiology, but determining the molecular mechanisms underlying these associations has been challenging1–3. Akkermansia muciniphila has been robustly associated with positive systemic effects on host metabolism, favourable outcomes to checkpoint blockade in cancer immunotherapy and homeostatic immunity4–7. Here we report the identification of a lipid from A. muciniphila’s cell membrane that recapitulates the immunomodulatory activity of A. muciniphila in cell-based assays8. The isolated immunogen, a diacyl phosphatidylethanolamine with two branched chains (a15:0-i15:0 PE), was characterized through both spectroscopic analysis and chemical synthesis. The immunogenic activity of a15:0-i15:0 PE has a highly restricted structure–activity relationship, and its immune signalling requires an unexpected toll-like receptor TLR2–TLR1 heterodimer9,10. Certain features of the phospholipid’s activity are worth noting: it is significantly less potent than known natural and synthetic TLR2 agonists; it preferentially induces some inflammatory cytokines but not others; and, at low doses (1% of EC50) it resets activation thresholds and responses for immune signalling. Identifying both the molecule and an equipotent synthetic analogue, its non-canonical TLR2–TLR1 signalling pathway, its immunomodulatory selectivity and its low-dose immunoregulatory effects provide a molecular mechanism for a model of A. muciniphila’s ability to set immunological tone and its varied roles in health and disease.
Suggested Citation
Munhyung Bae & Chelsi D. Cassilly & Xiaoxi Liu & Sung-Moo Park & Betsabeh Khoramian Tusi & Xiangjun Chen & Jaeyoung Kwon & Pavel Filipčík & Andrew S. Bolze & Zehua Liu & Hera Vlamakis & Daniel B. Grah, 2022.
"Akkermansia muciniphila phospholipid induces homeostatic immune responses,"
Nature, Nature, vol. 608(7921), pages 168-173, August.
Handle:
RePEc:nat:nature:v:608:y:2022:i:7921:d:10.1038_s41586-022-04985-7
DOI: 10.1038/s41586-022-04985-7
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Cited by:
- Yadong Qi & Jiamin He & Yawen Zhang & Qiwei Ge & Qiwen Wang & Luyi Chen & Jilei Xu & Lan Wang & Xueqin Chen & Dingjiacheng Jia & Yifeng Lin & Chaochao Xu & Ying Zhang & Tongyao Hou & Jianmin Si & Shuj, 2023.
"Heat-inactivated Bifidobacterium adolescentis ameliorates colon senescence through Paneth-like-cell-mediated stem cell activation,"
Nature Communications, Nature, vol. 14(1), pages 1-19, December.
- Bashar Shuoker & Michael J. Pichler & Chunsheng Jin & Hiroka Sakanaka & Haiyang Wu & Ana Martínez Gascueña & Jining Liu & Tine Sofie Nielsen & Jan Holgersson & Eva Nordberg Karlsson & Nathalie Juge & , 2023.
"Sialidases and fucosidases of Akkermansia muciniphila are crucial for growth on mucin and nutrient sharing with mucus-associated gut bacteria,"
Nature Communications, Nature, vol. 14(1), pages 1-16, December.
- Bennett W. Fox & Maximilian J. Helf & Russell N. Burkhardt & Alexander B. Artyukhin & Brian J. Curtis & Diana Fajardo Palomino & Allen F. Schroeder & Amaresh Chaturbedi & Arnaud Tauffenberger & Cheste, 2024.
"Evolutionarily related host and microbial pathways regulate fat desaturation in C. elegans,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
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