Gene disruption via programmable, sequence-specific nucleases represents a promising gene therapy strategy in which the reduction of specific protein levels provides a therapeutic benefit. Proprotein convertase subtilisin/kexin type 9 (PCSK9), an antagonist of the low-density lipoprotein (LDL) receptor, is a suitable target for nuclease-mediated gene disruption as an approach to treat hypercholesterolemia. We sought to determine the long-term durability and safety of PCSK9 knockdown in non-human primate (NHP) liver by adeno-associated virus (AAV)-delivered meganuclease following our initial report on the feasibility of this strategy. Six previously treated NHPs and additional NHPs administered AAV-meganuclease in combination with corticosteroid treatment or an alternative AAV serotype were monitored for a period of up to 3 years. The treated NHPs exhibited a sustained reduction in circulating PCSK9 and LDL cholesterol (LDL-c) through the course of the study concomitant with stable gene editing of the PCSK9 locus. Low-frequency off-target editing remained stable, and no obvious adverse changes in histopathology of the liver were detected. We demonstrate similar on-target nuclease activity in primary human hepatocytes using a chimeric liver-humanized mouse model. These studies demonstrate that targeted in vivo gene disruption exerts a lasting therapeutic effect and provide pivotal data for safety considerations, which support clinical translation.
Keywords: AAV; LDL; PCSK9; gene editing; gene therapy; genome editing; hypercholesterolemia; in vivo; meganuclease; nonhuman primates.
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