Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
3430983 | Virus Research | 2007 | 12 Pages |
Defective interfering (DI) RNAs are deletion mutants of viral genomes that are known in many cases to contribute to persistent infection and modification of viral pathogenesis. Cell type also plays a critical role in the establishment of viral persistence. In this study we have identified for the first time the generation of DI RNAs of Japanese encephalitis virus in C6/36 mosquito cells. A persistent infection was established by replacing growth medium on surviving cells and continued cell passaging. Persistent infection was demonstrated by a continual release of infectious virus, fluorescent antibody staining, and Northern analysis. A population of DI RNAs of approximately 8.2–9.7 kb, not detectable in acutely infected cells, became apparent in the persistently infected cells by 25 days postinfection. Sequence analyses revealed a population of DI RNAs that contained in-frame deletions of 1.3–2.8 kb covering the region of the E gene and some flanking C or prM and NS1 gene sequences. Transcripts from one cDNA clone of a DI RNA replicated in uninfected mosquito cells as demonstrated by RT-PCR. DI RNA-containing virions in supernatant fluids from persistently infected mosquito cells could be used to establish persistent infection in BHK-21 cells. The correlation of DI RNA presence with cell survival suggests that DI RNAs are contributing mechanistically to the establishment of persistent infection in both the mosquito and mammalian cells.