The regulation of persistent Borna disease virus infection by RNA silencing factors in human cells.

Viral infection induces diverse cellular immune responses. Some viruses induce the production of antiviral cytokines, alterations of endogenous gene expression, and apoptosis; however, other viruses replicate without inducing such responses, enabling them to persistently infect cells. Infection by Borna disease virus type 1 (BoDV-1) can result in fatal immune-mediated encephalitis, including in humans, yet infection of cells in vitro is generally persistent. The regulatory mechanisms underlying this persistent infection remain unclear. Here, we show that an enhancer of RNA-silencing, TRBP, positively regulates BoDV RNA level in human cells. Knockdown of TRBP decreased BoDV RNA levels in persistently-infected cells, whereas overexpression of TRBP increased BoDV RNA levels. To investigate the mechanism underlying this phenomenon, we performed immunoprecipitation assays and found that TRBP interacts with BoDV RNA. Furthermore, we performed cell fractionation, which revealed that persistent infection with BoDV does not alter the localization of TRBP and other RNA silencing factors in cells. Our results showed the regulation of persistent BoDV infection by RNA-silencing factors in human cells.

Duke Scholars

Author Nicholas Fredric Parrish Surgery, Abdominal Transplant Surgery