Abstract

The defective human parvovirus, adeno-associated virus (AAV), requires multiple functions provided by a coinfecting helper virus for viral replication. In addition, it has recently been shown that at least one AAV gene is also required for AAV DNA replication. In this paper, we investigate the autoregulation of the AAV genome by analyzing the expression of mutant AAV genomes upon transfection into adenovirus-infected human cells. Evidence is presented which indicates that the AAV genome regulates its own gene expression in at least two ways. First, either the AAV p5 gene or both the p5 and p19 genes appear to encode a trans activator of AAV transcription. Frameshift mutations within the p5 or p19 gene severely inhibited the synthesis and accumulation of all AAV transcripts. The defective accumulation of transcripts could be complemented in trans, in a manner independent of DNA replication, by cotransfection with a capsid deletion mutant. Second, evidence is presented which suggests that the p5 and p19 genes contain negative cis-active regulatory elements. Deletion of sequences within the p5 and p19 genes enhanced the accumulation of the p5 transcript in cis upon complementation with an AAV capsid deletion mutant, whereas certain deletions enhanced p40 RNA accumulation in the absence of trans activation by the p5 gene.

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