Abstract
Self-complementary AAV (scAAV) vector genomes contain a covalently closed hairpin derived from a mutated inverted terminal repeat that connects the two monomer single-stranded genomes into a head-to-head or tail-to-tail dimer. We found that during quantitative PCR (qPCR) this structure inhibits the amplification of proximal amplicons and causes the systemic underreporting of copy number by as much as 10-fold. We show that cleavage of scAAV vector genomes with restriction endonuclease to liberate amplicons from the covalently closed terminal hairpin restores quantitative amplification, and we implement this procedure in a simple, modified qPCR titration method for scAAV vectors. In addition, we developed and present an AAV genome titration procedure based on gel electrophoresis that requires minimal sample processing and has low interassay variability, and as such is well suited for the rigorous quality control demands of clinical vector production facilities.
Fagone and colleagues address challenges in quantitative PCR titration of self-complementary adeno-associated virus (scAAV). They show that restriction nuclease cleavage of covalently closed hairpins present in scAAV genomes restores quantitative amplification of hairpin-proximal amplicons. An alternative AAV titration procedure that requires minimal sample processing and shows low interassay variability is also presented.
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