Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation

Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation

Abstract RNA helicase DDX21 plays vital roles in ribosomal RNA biogenesis, transcription, and the regulation of host innate immunity during virus infection. How DDX21 recognizes and unwinds RNA and how DDX21 interacts with virus remain poorly understood. Here, crystal structures of human DDX21 deter...

Full description

Bibliographic Details
Main Authors: Zijun Chen, Zhengyang Li, Xiaojian Hu, Feiyan Xie, Siyun Kuang, Bowen Zhan, Wenqing Gao, Xiangjun Chen, Siqi Gao, Yang Li, Yongming Wang, Feng Qian, Chen Ding, Jianhua Gan, Chaoneng Ji, Xue‐Wei Xu, Zheng Zhou, Jinqing Huang, Housheng Hansen He, Jixi Li
Format: Article
Language:English
Published: Wiley 2020-07-01
Series:Advanced Science
Subjects:
ATPases
crystal structures
DDX21
RNA helicases
viral protein NS1
Online Access:https://doi.org/10.1002/advs.202000532
id doaj-0640dfb8b3944bf1b408774d68f5692b
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Zijun Chen
Zhengyang Li
Xiaojian Hu
Feiyan Xie
Siyun Kuang
Bowen Zhan
Wenqing Gao
Xiangjun Chen
Siqi Gao
Yang Li
Yongming Wang
Feng Qian
Chen Ding
Jianhua Gan
Chaoneng Ji
Xue‐Wei Xu
Zheng Zhou
Jinqing Huang
Housheng Hansen He
Jixi Li
spellingShingle Zijun Chen
Zhengyang Li
Xiaojian Hu
Feiyan Xie
Siyun Kuang
Bowen Zhan
Wenqing Gao
Xiangjun Chen
Siqi Gao
Yang Li
Yongming Wang
Feng Qian
Chen Ding
Jianhua Gan
Chaoneng Ji
Xue‐Wei Xu
Zheng Zhou
Jinqing Huang
Housheng Hansen He
Jixi Li
Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation
Advanced Science
ATPases
crystal structures
DDX21
RNA helicases
viral protein NS1
author_facet Zijun Chen
Zhengyang Li
Xiaojian Hu
Feiyan Xie
Siyun Kuang
Bowen Zhan
Wenqing Gao
Xiangjun Chen
Siqi Gao
Yang Li
Yongming Wang
Feng Qian
Chen Ding
Jianhua Gan
Chaoneng Ji
Xue‐Wei Xu
Zheng Zhou
Jinqing Huang
Housheng Hansen He
Jixi Li
author_sort Zijun Chen
title Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation
title_short Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation
title_full Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation
title_fullStr Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation
title_full_unstemmed Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal Activation
title_sort structural basis of human helicase ddx21 in rna binding, unwinding, and antiviral signal activation
publisher Wiley
series Advanced Science
issn 2198-3844
publishDate 2020-07-01
description Abstract RNA helicase DDX21 plays vital roles in ribosomal RNA biogenesis, transcription, and the regulation of host innate immunity during virus infection. How DDX21 recognizes and unwinds RNA and how DDX21 interacts with virus remain poorly understood. Here, crystal structures of human DDX21 determined in three distinct states are reported, including the apo‐state, the AMPPNP plus single‐stranded RNA (ssRNA) bound pre‐hydrolysis state, and the ADP‐bound post‐hydrolysis state, revealing an open to closed conformational change upon RNA binding and unwinding. The core of the RNA unwinding machinery of DDX21 includes one wedge helix, one sensor motif V and the DEVD box, which links the binding pockets of ATP and ssRNA. The mutant D339H/E340G dramatically increases RNA binding activity. Moreover, Hill coefficient analysis reveals that DDX21 unwinds double‐stranded RNA (dsRNA) in a cooperative manner. Besides, the nonstructural (NS1) protein of influenza A inhibits the ATPase and unwinding activity of DDX21 via small RNAs, which cooperatively assemble with DDX21 and NS1. The structures illustrate the dynamic process of ATP hydrolysis and RNA unwinding for RNA helicases, and the RNA modulated interaction between NS1 and DDX21 generates a fresh perspective toward the virus–host interface. It would benefit in developing therapeutics to combat the influenza virus infection.
topic ATPases
crystal structures
DDX21
RNA helicases
viral protein NS1
url https://doi.org/10.1002/advs.202000532
work_keys_str_mv AT zijunchen structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT zhengyangli structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT xiaojianhu structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT feiyanxie structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT siyunkuang structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT bowenzhan structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT wenqinggao structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT xiangjunchen structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT siqigao structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT yangli structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT yongmingwang structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT fengqian structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT chending structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT jianhuagan structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT chaonengji structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT xueweixu structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT zhengzhou structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT jinqinghuang structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT houshenghansenhe structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
AT jixili structuralbasisofhumanhelicaseddx21inrnabindingunwindingandantiviralsignalactivation
_version_ 1724672257286995968
spelling doaj-0640dfb8b3944bf1b408774d68f5692b2020-11-25T03:06:48ZengWileyAdvanced Science2198-38442020-07-01714n/an/a10.1002/advs.202000532Structural Basis of Human Helicase DDX21 in RNA Binding, Unwinding, and Antiviral Signal ActivationZijun Chen0Zhengyang Li1Xiaojian Hu2Feiyan Xie3Siyun Kuang4Bowen Zhan5Wenqing Gao6Xiangjun Chen7Siqi Gao8Yang Li9Yongming Wang10Feng Qian11Chen Ding12Jianhua Gan13Chaoneng Ji14Xue‐Wei Xu15Zheng Zhou16Jinqing Huang17Housheng Hansen He18Jixi Li19State Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaDepartment of Neurology Huashan Hospital Fudan University Shanghai 200040 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaState Key Laboratory of Genetic Engineering School of Life Sciences Fudan University Shanghai 200438 ChinaKey Laboratory of Marine Ecosystem Dynamics Ministry of Natural Resources & Second Institute of Oceanography Ministry of Natural Resources Hangzhou 310012 ChinaChina Novartis Institutes for Biomedical Research Co. Ltd Shanghai 201203 ChinaDepartment of Chemistry The Hong Kong University of Science and Technology Hong Kong ChinaDepartment of Medical Biophysics University of Toronto, and Princess Margaret Cancer Center University Health Network Toronto M5G 1L7, Ontario CanadaState Key Laboratory of Genetic Engineering Department of Neurology School of Life Sciences and Huashan Hospital Collaborative Innovation Center of Genetics and Development Engineering Research Center of Gene Technology of MOE Shanghai Engineering Research Center of Industrial Microorganisms Fudan University Shanghai 200438 ChinaAbstract RNA helicase DDX21 plays vital roles in ribosomal RNA biogenesis, transcription, and the regulation of host innate immunity during virus infection. How DDX21 recognizes and unwinds RNA and how DDX21 interacts with virus remain poorly understood. Here, crystal structures of human DDX21 determined in three distinct states are reported, including the apo‐state, the AMPPNP plus single‐stranded RNA (ssRNA) bound pre‐hydrolysis state, and the ADP‐bound post‐hydrolysis state, revealing an open to closed conformational change upon RNA binding and unwinding. The core of the RNA unwinding machinery of DDX21 includes one wedge helix, one sensor motif V and the DEVD box, which links the binding pockets of ATP and ssRNA. The mutant D339H/E340G dramatically increases RNA binding activity. Moreover, Hill coefficient analysis reveals that DDX21 unwinds double‐stranded RNA (dsRNA) in a cooperative manner. Besides, the nonstructural (NS1) protein of influenza A inhibits the ATPase and unwinding activity of DDX21 via small RNAs, which cooperatively assemble with DDX21 and NS1. The structures illustrate the dynamic process of ATP hydrolysis and RNA unwinding for RNA helicases, and the RNA modulated interaction between NS1 and DDX21 generates a fresh perspective toward the virus–host interface. It would benefit in developing therapeutics to combat the influenza virus infection.https://doi.org/10.1002/advs.202000532ATPasescrystal structuresDDX21RNA helicasesviral protein NS1

Similar Items