Identification of Viral and Cellular Proteins in Proximity to the HSV-2 pUL16 Tegument Protein in Infected Cells
Identification of Viral and Cellular Proteins in Proximity to the HSV-2 pUL16 Tegument Protein in Infected Cells
Holder, S. M.; Lubinsky, A.; Bossert, M.; Banfield, B. W.
AbstractOrthologs of the herpes simplex virus (HSV) pUL16 tegument protein are conserved throughout the Orthoherpesviridae family. During HSV infection, pUL16 functions in the nuclear egress of nascent nucleocapsids from the nucleus to the cytoplasm, prevents the docking of nascent cytoplasmic nucleocapsids to nuclear pore complexes, promotes the final envelopment of cytoplasmic nucleocapsids, and enhances cell-to-cell spread of virus infection. How pUL16 performs these diverse functions is poorly understood. To gain further insight into the mechanisms by which pUL16 mediates its activities, we utilized a BioID approach to identify cellular and viral proteins in proximity to pUL16 during the infection of human keratinocytes. By comparing proteins in proximity to pUL16 during infection with proteins in proximity to its well-known virus-encoded binding partner, pUL21, we provide new insight into the activities of pUL16 that likely occur in complex with pUL21 and those that are independent of pUL21. A key function of pUL21 is to deliver protein phosphatase 1 (PP1) to viral and cellular substrates to mediate their dephosphorylation. Intriguingly, the findings presented suggest that pUL16 interactions with pUL21 may regulate the isoform of PP1 that is bound to pUL21 and thereby regulate the specificity of substrate dephosphorylation.