STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production

STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production

Summary: γ-interferon-inducible protein-16 (IFI16), a key DNA sensor, triggers downstream STING-dependent type I interferon (IFN-I) production and antiviral immunity. However, it is still unclear how to negatively regulate IFI16 to avoid excessive IFN-I production and autoimmunity. Here, we find tha...

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Main Authors: Dapei Li, Rongsheng Wu, Wen Guo, Lifen Xie, Zigang Qiao, Shengchuan Chen, Jingfei Zhu, Chaohao Huang, Jian Huang, Bicheng Chen, Yanghua Qin, Feng Xu, Feng Ma
Format: Article
Language:English
Published: Elsevier 2019-10-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124719312665
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record_format Article
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language English
format Article
sources DOAJ
author Dapei Li
Rongsheng Wu
Wen Guo
Lifen Xie
Zigang Qiao
Shengchuan Chen
Jingfei Zhu
Chaohao Huang
Jian Huang
Bicheng Chen
Yanghua Qin
Feng Xu
Feng Ma
spellingShingle Dapei Li
Rongsheng Wu
Wen Guo
Lifen Xie
Zigang Qiao
Shengchuan Chen
Jingfei Zhu
Chaohao Huang
Jian Huang
Bicheng Chen
Yanghua Qin
Feng Xu
Feng Ma
STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production
Cell Reports
author_facet Dapei Li
Rongsheng Wu
Wen Guo
Lifen Xie
Zigang Qiao
Shengchuan Chen
Jingfei Zhu
Chaohao Huang
Jian Huang
Bicheng Chen
Yanghua Qin
Feng Xu
Feng Ma
author_sort Dapei Li
title STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production
title_short STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production
title_full STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production
title_fullStr STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production
title_full_unstemmed STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon Production
title_sort sting-mediated ifi16 degradation negatively controls type i interferon production
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2019-10-01
description Summary: γ-interferon-inducible protein-16 (IFI16), a key DNA sensor, triggers downstream STING-dependent type I interferon (IFN-I) production and antiviral immunity. However, it is still unclear how to negatively regulate IFI16 to avoid excessive IFN-I production and autoimmunity. Here, we find that STING directly interacts with IFI16 and facilitates IFI16 degradation via the ubiquitin-proteasome pathway by recruiting the E3 ligase TRIM21. The 1-pyrin region of IFI16 is responsible for the IFI16-STING interaction, and the first three lysines in the N-terminal region of IFI16 are the key sites that lead to STING-mediated IFI16 ubiquitination and degradation. Compared to wild-type IFI16, a higher level of viral DNA triggered IFN-β and antiviral IFN-stimulated gene expression, and thus less HSV-1 infection, was observed in the cells transfected with IFI16-K3/4/6R, an IFI16 mutant that is resistant to degradation. STING-mediated negative feedback regulation of IFI16 restricts IFN-I overproduction during antiviral immunity to avoid autoimmune diseases. : Li et al. show that STING mediates negative feedback regulation of IFI16 and restricts type I IFN overproduction during immune responses to viruses such as HSV-1. Keywords: IFI16, STING, DNA sensor, E3 ligase, ubiquitin proteasome system, type I interferon, IFN-stimulated gene, antiviral immunity
url http://www.sciencedirect.com/science/article/pii/S2211124719312665
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spelling doaj-49c4202f9b7444bb86a6e8c9320b76d42020-11-25T01:55:20ZengElsevierCell Reports2211-12472019-10-0129512491260.e4STING-Mediated IFI16 Degradation Negatively Controls Type I Interferon ProductionDapei Li0Rongsheng Wu1Wen Guo2Lifen Xie3Zigang Qiao4Shengchuan Chen5Jingfei Zhu6Chaohao Huang7Jian Huang8Bicheng Chen9Yanghua Qin10Feng Xu11Feng Ma12Center for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, China; Department of Surgery, The First Affiliated Hospital of Wenzhou Medical University, Wenzhou 325000, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, China; Department of Surgery, The First Affiliated Hospital of Wenzhou Medical University, Wenzhou 325000, ChinaDepartment of Emergency, The First Affiliated Hospital of Soochow University, Suzhou 215006, ChinaDepartment of Surgery, The First Affiliated Hospital of Wenzhou Medical University, Wenzhou 325000, ChinaDepartment of Laboratory Diagnosis, Changhai Hospital of the Second Military Medical University, Shanghai 200433, ChinaDepartment of Infectious Diseases, The Second Affiliated Hospital of Zhejiang University School of Medicine, Hangzhou 310009, ChinaCenter for Systems Medicine, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100005, China; Suzhou Institute of Systems Medicine, Suzhou 215123, China; Corresponding authorSummary: γ-interferon-inducible protein-16 (IFI16), a key DNA sensor, triggers downstream STING-dependent type I interferon (IFN-I) production and antiviral immunity. However, it is still unclear how to negatively regulate IFI16 to avoid excessive IFN-I production and autoimmunity. Here, we find that STING directly interacts with IFI16 and facilitates IFI16 degradation via the ubiquitin-proteasome pathway by recruiting the E3 ligase TRIM21. The 1-pyrin region of IFI16 is responsible for the IFI16-STING interaction, and the first three lysines in the N-terminal region of IFI16 are the key sites that lead to STING-mediated IFI16 ubiquitination and degradation. Compared to wild-type IFI16, a higher level of viral DNA triggered IFN-β and antiviral IFN-stimulated gene expression, and thus less HSV-1 infection, was observed in the cells transfected with IFI16-K3/4/6R, an IFI16 mutant that is resistant to degradation. STING-mediated negative feedback regulation of IFI16 restricts IFN-I overproduction during antiviral immunity to avoid autoimmune diseases. : Li et al. show that STING mediates negative feedback regulation of IFI16 and restricts type I IFN overproduction during immune responses to viruses such as HSV-1. Keywords: IFI16, STING, DNA sensor, E3 ligase, ubiquitin proteasome system, type I interferon, IFN-stimulated gene, antiviral immunityhttp://www.sciencedirect.com/science/article/pii/S2211124719312665

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