Author
Listed:
- Ping Zhou
(National Institute of Biological Sciences)
- Yang She
(National Institute of Biological Sciences
Institute of Biophysics, Chinese Academy of Sciences
University of Chinese Academy of Sciences)
- Na Dong
(China Agricultural University)
- Peng Li
(National Institute of Biological Sciences)
- Huabin He
(National Institute of Biological Sciences)
- Alessio Borio
(University of Natural Resources and Life Sciences)
- Qingcui Wu
(National Institute of Biological Sciences)
- Shan Lu
(National Institute of Biological Sciences)
- Xiaojun Ding
(Beijing Mingde Zhengkang Technologies Co., Ltd.)
- Yong Cao
(National Institute of Biological Sciences)
- Yue Xu
(National Institute of Biological Sciences)
- Wenqing Gao
(National Institute of Biological Sciences)
- Mengqiu Dong
(National Institute of Biological Sciences)
- Jingjin Ding
(National Institute of Biological Sciences
Institute of Biophysics, Chinese Academy of Sciences)
- Da-Cheng Wang
(Institute of Biophysics, Chinese Academy of Sciences)
- Alla Zamyatina
(University of Natural Resources and Life Sciences)
- Feng Shao
(National Institute of Biological Sciences
Institute of Biophysics, Chinese Academy of Sciences
Tsinghua University)
Abstract
Immune recognition of pathogen-associated molecular patterns (PAMPs) by pattern recognition receptors often activates proinflammatory NF-κB signalling1. Recent studies indicate that the bacterial metabolite d-glycero-β-d-manno-heptose 1,7-bisphosphate (HBP) can activate NF-κB signalling in host cytosol2–4, but it is unclear whether HBP is a genuine PAMP and the cognate pattern recognition receptor has not been identified. Here we combined a transposon screen in Yersinia pseudotuberculosis with biochemical analyses and identified ADP-β-d-manno-heptose (ADP-Hep), which mediates type III secretion system-dependent NF-κB activation and cytokine expression. ADP-Hep, but not other heptose metabolites, could enter host cytosol to activate NF-κB. A CRISPR–Cas9 screen showed that activation of NF-κB by ADP-Hep involves an ALPK1 (alpha-kinase 1)–TIFA (TRAF-interacting protein with forkhead-associated domain) axis. ADP-Hep directly binds the N-terminal domain of ALPK1, stimulating its kinase domain to phosphorylate and activate TIFA. The crystal structure of the N-terminal domain of ALPK1 and ADP-Hep in complex revealed the atomic mechanism of this ligand–receptor recognition process. HBP was transformed by host adenylyltransferases into ADP-heptose 7-P, which could activate ALPK1 to a lesser extent than ADP-Hep. ADP-Hep (but not HBP) alone or during bacterial infection induced Alpk1-dependent inflammation in mice. Our findings identify ALPK1 and ADP-Hep as a pattern recognition receptor and an effective immunomodulator, respectively.
Suggested Citation
Ping Zhou & Yang She & Na Dong & Peng Li & Huabin He & Alessio Borio & Qingcui Wu & Shan Lu & Xiaojun Ding & Yong Cao & Yue Xu & Wenqing Gao & Mengqiu Dong & Jingjin Ding & Da-Cheng Wang & Alla Zamyat, 2018.
"Alpha-kinase 1 is a cytosolic innate immune receptor for bacterial ADP-heptose,"
Nature, Nature, vol. 561(7721), pages 122-126, September.
Handle:
RePEc:nat:nature:v:561:y:2018:i:7721:d:10.1038_s41586-018-0433-3
DOI: 10.1038/s41586-018-0433-3
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