A chimeric PRRSV expressing equine arteritis virus minor envelope proteins acquired the broad in vitro cell tropism of EAV, demonstrating their critical role as viral attachment proteins.
Minor envelope proteins are the major determinant of arterivirus entry into cultured cells, as demonstrated by a chimeric PRRSV acquiring the broad tropism of EAV.
Arteriviruses are enveloped positive-strand RNA viruses for which the attachment proteins and cellular receptors have remained largely controversial. Arterivirus particles contain at least eight envelope proteins, an unusually large number among RNA viruses. These appear to segregate into three groups: major structural components (major glycoprotein GP5 and membrane protein M), minor glycoproteins (GP2a, GP3, and GP4), and small hydrophobic proteins (E and the recently discovered ORF5a protein). Biochemical studies previously suggested that the GP5-M heterodimer of porcine reproductive and respiratory syndrome virus (PRRSV) interacts with porcine sialoadhesin (pSn) in porcine alveolar macrophages (PAM). However, another study proposed that minor protein GP4, along with GP2a, interacts with CD163, another reported cellular receptor for PRRSV. In this study, we provide genetic evidence that the minor envelope proteins are the major determinant of arterivirus entry into cultured cells. A PRRSV infectious cDNA clone was equipped with open reading frames (ORFs) encoding minor envelope and E proteins of equine arteritis virus (EAV), the only known arterivirus displaying a broad tropism in cultured cells. Although PRRSV and EAV are only distantly related and utilize diversified transcription-regulating sequences (TRSs), a viable chimeric progeny virus was rescued. Strikingly, this chimeric virus (vAPRRS-EAV2ab34) acquired the broad in vitro cell tropism of EAV, demonstrating that the minor envelope proteins play a critical role as viral attachment proteins. We believe that chimeric arteriviruses of this kind will be a powerful tool for further dissection of the arterivirus replicative cycle, including virus entry, subgenomic RNA synthesis, and virion assembly.
Tian et al. (Thu,) conducted a other in Arterivirus infection. Chimeric PRRSV with EAV minor envelope proteins (vAPRRS-EAV2ab34) was evaluated on In vitro cell tropism. A chimeric PRRSV expressing equine arteritis virus minor envelope proteins acquired the broad in vitro cell tropism of EAV, demonstrating their critical role as viral attachment proteins.
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