Mutational analysis of adeno-associated virus Rep protein-mediated inhibition of heterologous and homologous promoters.

The four Rep proteins encoded by adeno-associated virus type 2 (AAV-2) inhibit transcription of their own promoters and of several heterologous promoters. To gain insight into the molecular mechanism of Rep-mediated transcription repression, we studied the effects of the four Rep proteins on the accumulation of mRNA transcribed from the human papillomavirus type 18 upstream regulatory region HPV18 URR, the human immunodeficiency virus long terminal repeat, and the AAV-2 p5 and p19 promoters by transient transfection experiments in HeLa cells. We observed a distinct contribution of the C- and N-terminal sequences in which the four Rep proteins (Rep78, Rep68, Rep52, and Rep40) differ from each other. While Rep78 showed a more than 10-fold inhibition of the four promoters studied, transcriptional repression mediated by Rep68 and Rep52 was reduced and nearly completely abolished for Rep40. The contribution of the C terminus of Rep78 was reduced with respect to the inhibition of the AAV-2 p5 and p19 promoters. Point mutations and deletions showed that a C-terminal zinc binding motif is required for zinc binding in vitro but plays no obvious role in the inhibition of homologous and heterologous promoters. Overall, inhibition of the four different promoters was dependent on the identical Rep protein domains with the exception of the AAV-2 p5 promoter. Expression of the AAV-2 p5 promoter was inhibited by a Rep78 protein with a mutation in the nucleotide binding motif, whereas expression of the AAV-2 p19 promoter, the human immunodeficiency virus long terminal repeat, and the HPV18 URR was not. Mutational analysis of the HPV18 URR showed that several, but not a single, cis regulatory elements are involved in the inhibition process. This finding suggests that transcriptional repression is mediated by protein-protein interactions of the Rep proteins either with multiple transcription factors or with target proteins of sequence-specific transcription factors of the basal transcription machinery.