Abstract
(AAV)-mediated episomal gene replacement therapy for monogenic liver disorders is currently limited in pediatric settings due to the loss of vector DNA, associated with hepatocyte duplication during liver growth. Genome editing is a promising strategy leading to a permanent and specific genome modification that is transmitted to daughter cells upon proliferation. Using genome targeting, we previously rescued neonatal lethality in mice with Crigler-Najjar syndrome. This rare monogenic disease is characterized by severe neonatal unconjugated hyperbilirubinemia, neurological damage, and death. Here, using the CRISPR-Staphylococcus aureus Cas9 (SaCas9) platform, we edited the disease-causing mutation present in the Ugt1a locus of these mice. Newborn mice were treated with two AAV8 vectors: one expressing the SaCas9 and single guide RNA, and the other carrying the Ugt1a homology regions with the corrected sequence, while maintained in a temporary phototherapy setting rescuing mortality. We observed a 50% plasma bilirubin reduction that remained stable for up to 6 months. We then tested different Cas9:donor vector ratios, with a 1:5 ratio showing the greatest efficacy in lowering plasma bilirubin, with partial lethality rescue when more severe, lethal conditions were applied. In conclusion, we reduced plasma bilirubin to safe levels and partially rescued neonatal lethality by correcting the mutant Ugt1a1 gene of a Crigler-Najjar mouse model.