Control of adenovirus alternative RNA splicing: effect of viral DNA replication on RNA splice site choice.

The primary transcripts of most adenovirus transcription units are processed into multiple, alternatively spliced mRNAs. The relative concentrations of such differentially processed mRNAs changes during the infectious cycle. The factors that control this temporal shift in mRNA abundance have not yet been characterized. In the experiments presented here we have examined mRNA synthesis from three viral transcription units: two early regions E1a and E1b, and late region L1. We show that viral DNA replication plays a key role in the control of cytoplasmic mRNA expression from these regions. In the absence of efficient late protein synthesis, viral DNA replication was sufficient to induce a substantial fraction of the E1a, E1b and L1 transcripts to shift from the early to the late pattern of mRNA structure. The shift was not complete under the conditions used, suggesting that viral proteins, although not essential for the process, play an important regulatory role. The requirement for late viral protein synthesis differed between the three transcription units examined. This dependence was most pronounced for correct L1 mRNA production. Viral DNA replication was sufficient to trigger a significant shift in L1 alternative 3' splice site selection. However, in the absence of late translation the L1 pre-mRNA was aberrantly spliced.