RNA editing for the treatment of alpha-1 antitrypsin deficiency.

Alpha-1 antitrypsin deficiency (AATD) is both a gain- and loss-of-function disease that impacts the liver and lung. Most severe cases result from a homozygous missense mutation in the SERPINA1 gene (Z mutation). While current therapies and those in development may ameliorate lung or liver disease, few are designed to address both. We have developed SERPINA1-994, an N-Acetylgalactosamine-conjugated chemically modified oligonucleotide that elicits adenine-to-inosine RNA editing using endogenous adenosine deaminases acting on RNA enzymes, to correct SERPINA1 Z transcripts. We show that SERPINA1-994 edits 50% of the Z transcript in hepatocytes of NSG-PiZ mice, which increases total serum AAT levels and induces the production of wild-type M-AAT protein. SERPINA1-994 addresses loss of AAT function in lung by increasing the neutrophil elastase inhibition capacity of mouse serum and gain of function in liver by correcting gene expression patterns, decreasing Z-AAT protein aggregation and decreasing inflammation. SERPINA1-994 relies on a clinically proven delivery technology and directs highly specific RNA rather than DNA editing with no bystander editing. Overall, these data suggest that SERPINA1-994 changes a ZZ homozygous state, which is associated with a high risk for AATD, to a low-risk MZ-like phenotype.