Encapsulation of a Single-Stranded Form of DNA Impurities into the Capsid of a Recombinant Adeno-Associated Virus

Recombinant adeno-associated viruses (rAAVs) are widely used viral vectors in human gene therapy. However, DNA impurities, such as plasmid DNA and host cell DNA, remain a significant quality control concern for final products. Our study examined purified rAAV1-ZsGreen1, rAAV2-ZsGreen1, rAAV5-ZsGreen1, and rAAV6-ZsGreen1 samples and found that they contained 0.69-3.27% DNA impurities derived from three plasmids, as detected by droplet digital PCR. These plasmid-derived impurities primarily consisted of those derived from the pAAV plasmid (>= 98.88%), with small amounts of pRC1, pRC2mi342, pRC5, or pRC6 (<= 0.91%), and pHelper (<= 0.21%) plasmids. To determine the DNA strand form of these impurities within the capsids, we used two different DNases with distinct substrate specificities. The extracted DNA impurities from the rAAV samples exhibited high sensitivity to nuclease P1 but not to lambda exonuclease. Similarly, host cell DNA encapsulated within the capsids revealed similar sensitivities to the nucleases. These findings indicate that DNA impurities derived from the plasmids and host cell DNA are encapsulated into rAAV capsids as single-stranded DNA, likely through a mechanism similar to that of the rAAV genome.