Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense

Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense

© 2017 Kumthip et al. The activation of interferon (IFN)-regulatory factor-3 (IRF3), characterized by phosphorylation and nuclear translocation of the latent transcription factor, is central to initiating innate antiviral responses. Whereas much has been learned about the upstream pathways and signa...

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Main Authors: Kattareeya Kumthip, Darong Yang, Nan L. Li, Yunzhi Zhang, Meiyun Fan, Aarti Sethuraman, Kui Li
Format: Journal
Published: 2018
Subjects:
Biochemistry, Genetics and Molecular Biology
Immunology and Microbiology
Agricultural and Biological Sciences
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/43620
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spelling th-cmuir.6653943832-436202018-04-25T07:15:56Z Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense Kattareeya Kumthip Darong Yang Nan L. Li Yunzhi Zhang Meiyun Fan Aarti Sethuraman Kui Li Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Agricultural and Biological Sciences © 2017 Kumthip et al. The activation of interferon (IFN)-regulatory factor-3 (IRF3), characterized by phosphorylation and nuclear translocation of the latent transcription factor, is central to initiating innate antiviral responses. Whereas much has been learned about the upstream pathways and signaling mechanisms leading to IRF3 activation, how activated IRF3 operates in the nucleus to control transcription of IFNs remains obscure. Here we identify EAP30 (a.k.a, SNF8/VPS22), an endosomal sorting complex required for transport (ESCRT)-II subunit, as an essential factor controlling IRF3-dependent antiviral defense. Depletion of EAP30, but not other ESCRT-II subunits, compromised IRF3-dependent induction of type I and III IFNs, IFN-stimulated genes (ISGs) and chemokines by double-stranded RNA or viruses. EAP30, however, was dispensable for the induction of inflammatory mediators of strict NF-κB target. Significantly, knockdown of EAP30 also impaired the establishment of an antiviral state against vesicular stomatitis virus and hepatitis C virus, which are of distinct viral families. Mechanistically, EAP30 was not required for IRF3 activation but rather acted at a downstream step. Specifically, a fraction of EAP30 localized within the nucleus, where it formed a complex with IRF3 and its transcriptional co-activator, CREB-binding protein (CBP), in a virus-inducible manner. These interactions promoted IRF3 binding to target gene promoters such as IFN-β, IFN-λ1 and ISG56. Together, our data describe an unappreciated role for EAP30 in IRF3-dependent innate antiviral response in the nucleus. 2018-01-24T03:50:55Z 2018-01-24T03:50:55Z 2017-10-01 Journal 15537374 15537366 2-s2.0-85033217819 10.1371/journal.ppat.1006713 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85033217819&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/43620
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Biochemistry, Genetics and Molecular Biology
Immunology and Microbiology
Agricultural and Biological Sciences
spellingShingle Biochemistry, Genetics and Molecular Biology
Immunology and Microbiology
Agricultural and Biological Sciences
Kattareeya Kumthip
Darong Yang
Nan L. Li
Yunzhi Zhang
Meiyun Fan
Aarti Sethuraman
Kui Li
Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense
description © 2017 Kumthip et al. The activation of interferon (IFN)-regulatory factor-3 (IRF3), characterized by phosphorylation and nuclear translocation of the latent transcription factor, is central to initiating innate antiviral responses. Whereas much has been learned about the upstream pathways and signaling mechanisms leading to IRF3 activation, how activated IRF3 operates in the nucleus to control transcription of IFNs remains obscure. Here we identify EAP30 (a.k.a, SNF8/VPS22), an endosomal sorting complex required for transport (ESCRT)-II subunit, as an essential factor controlling IRF3-dependent antiviral defense. Depletion of EAP30, but not other ESCRT-II subunits, compromised IRF3-dependent induction of type I and III IFNs, IFN-stimulated genes (ISGs) and chemokines by double-stranded RNA or viruses. EAP30, however, was dispensable for the induction of inflammatory mediators of strict NF-κB target. Significantly, knockdown of EAP30 also impaired the establishment of an antiviral state against vesicular stomatitis virus and hepatitis C virus, which are of distinct viral families. Mechanistically, EAP30 was not required for IRF3 activation but rather acted at a downstream step. Specifically, a fraction of EAP30 localized within the nucleus, where it formed a complex with IRF3 and its transcriptional co-activator, CREB-binding protein (CBP), in a virus-inducible manner. These interactions promoted IRF3 binding to target gene promoters such as IFN-β, IFN-λ1 and ISG56. Together, our data describe an unappreciated role for EAP30 in IRF3-dependent innate antiviral response in the nucleus.
format Journal
author Kattareeya Kumthip
Darong Yang
Nan L. Li
Yunzhi Zhang
Meiyun Fan
Aarti Sethuraman
Kui Li
author_facet Kattareeya Kumthip
Darong Yang
Nan L. Li
Yunzhi Zhang
Meiyun Fan
Aarti Sethuraman
Kui Li
author_sort Kattareeya Kumthip
title Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense
title_short Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense
title_full Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense
title_fullStr Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense
title_full_unstemmed Pivotal role for the ESCRT-II complex subunit EAP30/SNF8 in IRF3-dependent innate antiviral defense
title_sort pivotal role for the escrt-ii complex subunit eap30/snf8 in irf3-dependent innate antiviral defense
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85033217819&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/43620
_version_ 1681422407019003904

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