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Porcine Hemagglutinating Encephalomyelitis Virus Co-Opts Multivesicular-Derived Exosomes for Transmission.

Zi LiShaoqian MuYihan TianJunchao ShiYungang LanJiyu GuanKui ZhaoFeng GaoWenqi He
Published in: mBio (2022)
Porcine hemagglutinating encephalomyelitis virus (PHEV) is a member of the family Coronaviridae , genus Betacoronavirus , and subgenus Embecovirus that causes neurological disorders, vomiting and wasting disease (VWD), or influenza-like illness (ILI) in pigs. Exosomes regulate nearby or distant cells as a means of intercellular communication; however, whether they are involved in the transmission of viral reference materials during PHEV infection is unknown. Here, we collected exosomes derived from PHEV-infected neural cells (PHEV-exos) and validated their morphological, structural, and content characteristics. High-resolution mass spectrometry indicated that PHEV-exos carry a variety of cargoes, including host innate immunity sensors and viral ingredients. Furthermore, transwell analysis revealed that viral ingredients, such as proteins and RNA fragments, could be encapsulated in the exosomes of multivesicular bodies (MVBs) to nonpermissive microglia. Inhibition of exosome secretion could suppress PHEV infection. Therefore, we concluded that the mode of infectious transmission of PHEV is likely through a mixture of virus-modified exosomes and virions and that exosomal export acts as a host strategy to induce an innate response in replicating nonpermissive bystander cells free of immune system recognition. IMPORTANCE The novel coronavirus severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused a large number of deaths worldwide. Clinical neurological complications have occurred in some cases; however, knowledge of the natural history of coronavirus in the central nervous system (CNS) is thus far limited. PHEV is a typical neurotropic betacoronavirus (β-CoV) that propagates via neural circuits in the host CNS after peripheral incubation rather than through the bloodstream. It is therefore a good prototype pathogen to investigate the neuropathological pathogenesis of acute human coronavirus infection. In this study, we demonstrate a new association between host vesicle-based secretion and PHEV infection, showing that multivesicular-derived exosomes are one of the modes of infectious transmission and that they mediate the transfer of immunostimulatory cargo to uninfected neuroimmune cells. These findings provide novel insights into the treatment and monitoring of neurological consequences associated with β-CoV, similar to those associated with SARS-CoV-2.
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