Journal
EMERGING MICROBES & INFECTIONS
Volume 11, Issue 1, Pages 519-531Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/22221751.2022.2032372
Keywords
Coronavirus; circRNA; hnRNP C; mRNA; RNA binding protein
Categories
Funding
- Research Grants Council General Research Fund [RGC/GRF 17124220]
- Theme-Based Research Scheme of the Research Grants Council of Hong Kong Special Administrative Region [T11-709/21-N]
- National Key R&D Programmes of China [2020YFA0707500, 2020YFA0707504]
- Consultancy Service for Enhancing Laboratory Surveillance of Emerging Infectious Diseases and Research Capability on Antimicrobial Resistance for Department of Health of the Hong Kong Special Administrative Region Government
- Health@InnoHK, Innovation and Technology Commission, the Government of the Hong Kong Special Administrative Region
- Sanming Project of Medicine in Shenzhen, China [SZSM201911014]
- High Level-Hospital Program, Health Commission of Guangdong Province, China
- National Key Research and Development Programme on Public Security Risk Prevention and Control Emergency Project
- Major Science and Technology Program of Hainan Province [ZDKJ202003]
- Research Project of Hainan Academician Innovation Platform [YSPTZX202004]
- Hainan Talent Development Project [SRC200003]
- University of Hong Kong Outstanding Young Researcher Award
- University of Hong Kong
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This study reveals that MERS-CoV infection increases the co-expression of circRNAs and mRNAs, and hnRNP C is identified as a key regulator in this process. Targeting hnRNP C-related signaling pathways could be an effective strategy against coronaviruses.
Host circular RNAs (circRNAs) play critical roles in the pathogenesis of viral infections. However, how viruses modulate the biogenesis of host proviral circRNAs to facilitate their replication remains unclear. We have recently shown that Middle East respiratory syndrome coronavirus (MERS-CoV) infection increases co-expression of circRNAs and their cognate messenger RNAs (mRNAs), possibly by hijacking specific host RNA binding proteins (RBPs). In this study, we systemically analysed the interactions between the representative circRNA-mRNA pairs upregulated upon MERS-CoV infection and host RBPs. Our analysis identified heterogeneous nuclear ribonucleoprotein C (hnRNP C) as a key host factor that governed the expression of numerous MERS-CoV-perturbed circRNAs, including hsa_circ_0002846, hsa_circ_0002061, and hsa_circ_0004445. RNA immunoprecipitation assay showed that hnRNP C could bind physically to these circRNAs. Specific knockdown of hnRNP C by small interfering RNA significantly (P < 0.05 to P < 0.0001) suppressed MERS-CoV replication in human lung adenocarcinoma (Calu-3) and human small airway epithelial (HSAEC) cells. Both MERS-CoV and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection increased the total and phosphorylated forms of hnRNP C to activate the downstream CRK-mTOR pathway. Treatment of MERS-CoV- (IC50: 0.618 mu M) or SARS-CoV-2-infected (IC50: 1.233 mu M) Calu-3 cells with the mTOR inhibitor OSI-027 resulted in significantly reduced viral loads. Collectively, our study identified hnRNP C as a key regulator of MERS-CoV-perturbed circRNAs and their cognate mRNAs, and the potential of targeting hnRNP C-related signalling pathways as an anticoronaviral strategy.
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