Longer Inactivating Sequence in Peptide Lock Improves Performance of Synthetic Protease-Activatable Adeno-Associated Virus

Adeno-associated viruses (AAVs) are promising gene therapy vectors but may exhibit off-target delivery due to broad tissue tropism. We recently developed a synthetic protease-activatable AAV vector, named provector, that transduces cells preferentially in environments rich in matrix metalloproteinases (MMPs) which are elevated in a variety of diseases, including various cancers and heart diseases. The provector displays peptide locks made up of MMP recognition sites flanking an inactivating sequence (IS) composed of four aspartic acid residues (D4). When present, the IS prevents AAV from binding cell receptors and no transduction occurs (OFF state). High levels of MMPs cleave the recognition sequences and release the IS from the capsid surface, restoring cell receptor binding (ON state). The AAV9 provector prototype is not optimal as it displays baseline OFF transduction at 5–10% of that of the wild-type capsid, which can lead to off-target delivery. We hypothesized that changes to the IS may decrease OFF...