Synonymous mutations in AAV Rep enhance genome packaging in a library selection

Abstract When producing Adeno-Associated Virus (AAV) gene therapies, a significant fraction of capsids can lack the desired DNA cargo. In AAV, Rep proteins mediate DNA packaging and virus assembly, suggesting that changes in Rep activity, expression, or DNA binding might affect genome packaging. To understand how mutations in the Rep gene affect activity, we selected a library of Rep mutants for their ability to produce active virions. By sequencing the Rep gene following the purification of viruses that package AAV genomes, we identified Rep mutants having non-synonymous mutations with a range of cellular activities. Surprisingly, synonymous mutations within the p19 promoter were enriched to the greatest extent, increasing in abundance by 10 2 to 10 4 fold. When the most highly enriched mutant was used to package a synthetic DNA cargo into the AAV capsid, the packaging efficiency could not be differentiated from native Rep. These findings suggest that these synonymous mutations enhance AAV genome packaging into capsids by affecting Rep-DNA interactions. They also suggest that silent sequence changes in the DNA cargo packaged by Rep can be used to tune packaging DNA packaging efficiency.