Viral genome synthesis in BHK 21 cells persistently infected with Sendai virus

We have carried out daily analysis of the viral RNA species replicated by nucleocapsids present in the cytoplasm of two different BHK 21 cell lines persistently infected with Sendai virus. At each day of analysis (both before and after crises of cytopathology, and during long periods of stable growth) DI particle size RNA was the major species of viral RNA replicated within these nucleocapsids. The molar ratio of DI RNA to standard virus (50 S) RNA species within intracellular nucleocapsids was always extremely high (from 10/1 to 340/1). Thus, there is no evidence for cyclic variations in relative predominance of standard virus and DI nucleocapsids in populations of these persistently infected cells, although “cycling” could occur at the individual cell level at infrequent intervals. Furthermore, challenge of persistently infected cultures with standard Sendai virus or incubation at 33° also failed to significantly decrease the ratio of DI nucleocapsids to standard virus nucleocapsids. It was also found that multiple DI RNA species are present (most are not resolvable by sucrose gradient analysis), and that these evolve with time—some arising and increasing with time, while others are outcompeted. No selective advantage for DI RNA of any particular size was observed. Finally, by measuring the total amount of nucleocapsids present in these persistently infected cells (as estimated by level of NP protein in purified nucleocapsids), and the degree of synthesis of viral nucleocapsid (as determined by ³H]uridine incorporation in the presence of actinomycin D), we found that the rate of viral genome replication was 30- to 40-fold lower in the persistently infected cells than it was in St acutely infected cells. These findings may indicate that the accumulated nucleocapsids in persistently infected cells are built up over a period of many weeks of slow synthesis, although turnover times for NP protein and RNA of nucleocapsids have not yet been determined in persistently infected cells.