Enteroviral 3C protease activates the human NLRP1 inflammasome in airway epithelia

Kim S. Robinson(Agency for Science, Technology and Research), Daniel Eng Thiam Teo(Nanyang Technological University), Kai Sen Tan(National University Health System), Gee Ann Toh(Nanyang Technological University), Hsiao Hui Ong(National University Health System), Chrissie Lim(Institute of Molecular and Cell Biology), Kenneth Lay(Agency for Science, Technology and Research), Bijin Au(Institute of Molecular and Cell Biology), Tian Sheng Lew(National University Health System), Justin Jang Hann Chu(National University Health System), Vincent Chow(National University Health System), De Yun Wang(National University Health System), Franklin L. Zhong(Agency for Science, Technology and Research), Bruno Reversade(Agency for Science, Technology and Research)
Science
October 22, 2020
10.1126/science.aay2002
Cited by 236Open Access
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Abstract

A ligand is located, at long last! Members of the Nod-like receptor (NLR) family act as intracellular sensors of infection. Once they recognize pathogen-associated molecular patterns, they assemble into signaling complexes called inflammasomes, which induce proinflammatory cytokines and pyroptotic cell death. Although rodent NLR family pyrin domain containing 1 (NLRP1) can recognize bacterial toxins and protozoan pathogens, the ligands for human NLRP1 have remained elusive. Robinson et al. found that human NLRP1 senses and is activated by enteroviruses. During human rhinovirus (HRV) infection, the HRV 3C protease cleaves an autoinhibitory N-terminal fragment from NLRP1, which is subsequently degraded. The NLRP1 C-terminal fragment that is released then initiates inflammasome formation. This work offers insights into immune sensing of respiratory viral infections and provides an example of the N-terminal glycine degron pathway in human innate immunity. Science , this issue p. eaay2002

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