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Abstract
We reported the isolation and characterization of a novel mammalian reassortant reovirus BYD1 that may have played an accomplice role with SARS-coronavirus during the 2003 SARS pandemic. The pathogenic mechanism of this novel reovirus is unknown. Reovirus pathogenicity has been associated with virus-induced apoptosis in cultured cells and in vivo. The reovirus outer capsid protein μ1 is recognized as the primary determinant of reovirus-induced apoptosis. Here, we investigated the apoptosis induced by BYD1, its outer capsid protein μ1, and its cell-attachment protein σ1 to understand the pathogenesis of BYD1. We also investigated BYD1 caused systemic complications in suckling mice. Under electron microscopy, BYD1-infected cells showed characteristics typical of apoptosis. Notably, ectopically expressed μ1 and σ1 induced similar pathological apoptosis, independent of BYD1 infection, in host cells in which they were expressed, which suggests that μ1 and σ1 are both apoptotic virulence factors. Consistent with previous reports of reovirus pathogenicity, suckling mice intracranially inoculated with BYD1 developed central nerve damage, myocarditis, and pneumonia. Collectively, our data suggest that BYD1 μ1- and σ1-induced apoptosis is involved in the multi-organ lesions in a suckling mouse BYD1 infection model.
Highlights
Mammalian reoviruses (MRVs) are prototypical members of the family Reoviridae, which contains segmented double-stranded RNA viruses of both medical and economic importance
In a mouse infection model, reovirus-induced apoptosis is a major determinant of virulence, causing neural and cardiac injury, and mice treated with inhibitors of apoptosis before infection have reduced tissue damage in the central nervous system and heart [15,16]
The apoptosis of the host cells caused by severe acute respiratory syndrome (SARS)-CoV has been suggested to play a pathogenic role [37,38]
Summary
Mammalian reoviruses (MRVs) are prototypical members of the family Reoviridae, which contains segmented double-stranded RNA (dsRNA) viruses of both medical (rotavirus) and economic (bluetongue virus) importance (reviewed in [1,2,3]). These viruses have a segmented dsRNA genome encoding eight structural proteins and three nonstructural proteins [4]. Despite limited reports of severe reovirus infections in humans, pulmonary infection of mice with reovirus serotype 1 strain Lang is a very clinically relevant model of infection-induced acute viral pneumonia leading to acute respiratory distress syndrome, the most severe form of acute lung injury [10,11,12,13]. Recent studies have indicated that the reovirus outer capsid protein m1 is the primary factor involved in reovirus-induced apoptosis [17,18]
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