Expression of polyomavirus virion proteins by a vaccinia virus vector: association of VP1 and VP2 with the nuclear framework

Abstract

The polyomavirus proteins VP1, VP2, and VP3 move from their cytoplasmic site of synthesis into the nucleus, where virus assembly occurs. To identify cellular or viral components which might control this process, we determined the distribution of VP1, VP2, and VP3 in a soluble fraction, a cytoplasmic cytoskeleton fraction, and a nuclear framework fraction of infected cells. All three proteins were detected in a detergent-extractable form immediately after their synthesis in polyomavirus-infected cells. Approximately 50, 25, and 40% of pulse-labeled VP1, VP2, and VP3, respectively, associated with the skeletal framework of the nucleus within 10 min after their synthesis. The remaining portion of each labeled protein failed to accumulate on the nuclear framework during a 40-min chase and was degraded. When expressed separately by recombinant vaccinia viruses, VP1 and VP2, but not VP3, accumulated on the nuclear framework. This association was not dependent on other polyomavirus proteins or viral DNA. The amount of total VP1 and VP2 which was bound to the nuclear framework approximated 45 and 20%, respectively. Indirect immunofluorescence demonstrated an exclusive nuclear localization of VP1 in situ. In coinfection experiments, a greater percentage of total VP2 and VP3 was bound to the nuclear framework of cells which cosynthesized VP1. These results indicate that although VP1 and VP2 can bind independently to the insoluble nuclear framework, the association of VP3 with this nuclear structure is promoted by the presence of VP1.