A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production

Virus-host interactions are complicated processes, and multiple cellular proteins promote or inhibit viral replication through different mechanisms. Recent progress has implicated circular RNAs (circRNAs) in cancer biology and progression; however, the role of circRNAs in viral infection remains lar...

Descripción completa

Detalles Bibliográficos
Autores principales: Qu, Zhiyuan, Meng, Fei, Shi, Jianzhong, Deng, Guohua, Zeng, Xianying, Ge, Jinying, Li, Yanbing, Liu, Liling, Chen, Pucheng, Jiang, Yongping, Li, Chengjun, Chen, Hualan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2021
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8406138/
https://www.ncbi.nlm.nih.gov/pubmed/34281396
http://dx.doi.org/10.1128/mBio.01017-21
_version_ 1783746461949755392
author Qu, Zhiyuan
Meng, Fei
Shi, Jianzhong
Deng, Guohua
Zeng, Xianying
Ge, Jinying
Li, Yanbing
Liu, Liling
Chen, Pucheng
Jiang, Yongping
Li, Chengjun
Chen, Hualan
author_facet Qu, Zhiyuan
Meng, Fei
Shi, Jianzhong
Deng, Guohua
Zeng, Xianying
Ge, Jinying
Li, Yanbing
Liu, Liling
Chen, Pucheng
Jiang, Yongping
Li, Chengjun
Chen, Hualan
author_sort Qu, Zhiyuan
collection PubMed
description Virus-host interactions are complicated processes, and multiple cellular proteins promote or inhibit viral replication through different mechanisms. Recent progress has implicated circular RNAs (circRNAs) in cancer biology and progression; however, the role of circRNAs in viral infection remains largely unclear. Here, we detected 11,620 circRNAs in A549 cells and found that 411 of them were differentially expressed in influenza virus-infected A549 cells. We characterized a novel intronic circRNA, AIVR, that was upregulated in influenza virus-infected A549 cells and found that silencing of AIVR significantly promoted influenza virus replication in A549 cells. We further found that AIVR predominantly localizes in the cytoplasm and works as a microRNA (miRNA) sponge. One of the miRNAs absorbed by AIVR binds the mRNA of CREBBP, which is an important component of the large nucleoprotein complex interferon beta (IFN-β) enhanceosome that accelerates IFN-β production. AIVR overexpression significantly increased the mRNA and protein levels of IFN-β in the influenza virus-infected A549 cells. Therefore, the upregulation of AIVR is a cellular antiviral strategy, with AIVR exerting its antiviral effect by absorbing miRNA and promoting the expression of CREBBP to facilitate IFN-β production. Our study provides new insights into the roles of circRNAs in the cellular innate antiviral response.
format Online
Article
Text
id pubmed-8406138
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher American Society for Microbiology
record_format MEDLINE/PubMed
spelling pubmed-84061382021-09-09 A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production Qu, Zhiyuan Meng, Fei Shi, Jianzhong Deng, Guohua Zeng, Xianying Ge, Jinying Li, Yanbing Liu, Liling Chen, Pucheng Jiang, Yongping Li, Chengjun Chen, Hualan mBio Research Article Virus-host interactions are complicated processes, and multiple cellular proteins promote or inhibit viral replication through different mechanisms. Recent progress has implicated circular RNAs (circRNAs) in cancer biology and progression; however, the role of circRNAs in viral infection remains largely unclear. Here, we detected 11,620 circRNAs in A549 cells and found that 411 of them were differentially expressed in influenza virus-infected A549 cells. We characterized a novel intronic circRNA, AIVR, that was upregulated in influenza virus-infected A549 cells and found that silencing of AIVR significantly promoted influenza virus replication in A549 cells. We further found that AIVR predominantly localizes in the cytoplasm and works as a microRNA (miRNA) sponge. One of the miRNAs absorbed by AIVR binds the mRNA of CREBBP, which is an important component of the large nucleoprotein complex interferon beta (IFN-β) enhanceosome that accelerates IFN-β production. AIVR overexpression significantly increased the mRNA and protein levels of IFN-β in the influenza virus-infected A549 cells. Therefore, the upregulation of AIVR is a cellular antiviral strategy, with AIVR exerting its antiviral effect by absorbing miRNA and promoting the expression of CREBBP to facilitate IFN-β production. Our study provides new insights into the roles of circRNAs in the cellular innate antiviral response. American Society for Microbiology 2021-07-20 /pmc/articles/PMC8406138/ /pubmed/34281396 http://dx.doi.org/10.1128/mBio.01017-21 Text en Copyright © 2021 Qu et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Qu, Zhiyuan
Meng, Fei
Shi, Jianzhong
Deng, Guohua
Zeng, Xianying
Ge, Jinying
Li, Yanbing
Liu, Liling
Chen, Pucheng
Jiang, Yongping
Li, Chengjun
Chen, Hualan
A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production
title A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production
title_full A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production
title_fullStr A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production
title_full_unstemmed A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production
title_short A Novel Intronic Circular RNA Antagonizes Influenza Virus by Absorbing a microRNA That Degrades CREBBP and Accelerating IFN-β Production
title_sort novel intronic circular rna antagonizes influenza virus by absorbing a microrna that degrades crebbp and accelerating ifn-β production
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8406138/
https://www.ncbi.nlm.nih.gov/pubmed/34281396
http://dx.doi.org/10.1128/mBio.01017-21
work_keys_str_mv AT quzhiyuan anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT mengfei anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT shijianzhong anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT dengguohua anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT zengxianying anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT gejinying anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT liyanbing anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT liuliling anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT chenpucheng anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT jiangyongping anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT lichengjun anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT chenhualan anovelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT quzhiyuan novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT mengfei novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT shijianzhong novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT dengguohua novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT zengxianying novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT gejinying novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT liyanbing novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT liuliling novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT chenpucheng novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT jiangyongping novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT lichengjun novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction
AT chenhualan novelintroniccircularrnaantagonizesinfluenzavirusbyabsorbingamicrornathatdegradescrebbpandacceleratingifnbproduction

Ejemplares similares