Abstract

Murine hepatitis virus strain A59 (MHV-A59) was shown to induce pyroptosis, apoptosis, and necroptosis of infected cells, especially in the murine macrophages. However, whether ferroptosis, a recently identified form of lytic cell death, was involved in the pathogenicity of MHV-A59 is unknown. We utilized murine macrophages and a C57BL/6 mice intranasal infection model to address this. In primary macrophages, the ferroptosis inhibitor inhibited viral propagation, inflammatory cytokines released, and cell syncytia formed after MHV-A59 infection. In the mouse model, we found that in vivo administration of liproxstatin-1 ameliorated lung inflammation and tissue injuries caused by MHV-A59 infection. To find how MHV-A59 infection influenced the expression of ferroptosis-related genes, we performed RNA-seq in primary macrophages and found that MHV-A59 infection upregulates the expression of the acyl-CoA synthetase long-chain family member 1 (ACSL1), a novel ferroptosis inducer. Using ferroptosis inhibitors and a TLR4 inhibitor, we showed that MHV-A59 resulted in the NF-kB-dependent, TLR4-independent ACSL1 upregulation. Accordingly, ACSL1 inhibitor Triacsin C suppressed MHV-A59-infection-induced syncytia formation and viral propagation in primary macrophages. Collectively, our study indicates that ferroptosis inhibition protects hosts from MHV-A59 infection. Targeting ferroptosis may serve as a potential treatment approach for dealing with hyper-inflammation induced by coronavirus infection.

Highlights

  • SARS-CoV-2, the causative agent of the coronavirus disease 2019 (COVID-19), has resulted in more than 5 million deaths worldwide [1]

  • Via analyzing the RNA-seq data of primary macrophages infected with Murine hepatitis virus strain A59 (MHV-A59), we found that mouse hepatitis virus (MHV)-A59 infection induced the ferroptosis-promoting gene acyl-CoA synthetase long-chain family member 1 (ACSL1) expression

  • Syncytia formation of SARS-CoV-2- or MHV-A59-infected cells mainly depends on the interaction between spike protein and receptors, and indicates the viral abundance and cellular antiviral mechanism [41]

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Summary

Introduction

SARS-CoV-2, the causative agent of the coronavirus disease 2019 (COVID-19), has resulted in more than 5 million deaths worldwide [1]. It is urgent to explore effective approaches to the treatments of COVID-19, especially COVID-19 pneumonia. Studying the interaction between coronavirus and hosts can help understand the mechanism within the infection process, and provide new opinions on clinical treatment [2,3]. Murine hepatitis virus strain A59 (MHV-A59) is a well-studied coronavirus infection model [4]. It has been validated that lung infection of MHV-A59 was sufficient to cause pneumonia and severe lung injuries [5,6]. Expression of inflammatory cytokines, such as Cxcl, Ifng, and

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