Safety and efficacy of an engineered hepatotropic AAV gene therapy for ornithine transcarbamylase deficiency in cynomolgus monkeys.
Study Goal
The researchers aimed to assess the safety and efficacy of intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene for treating ornithine transcarbamylase deficiency (OTCD).
Results Summary
The study found that the AAVLK03 gene transfer was well tolerated with no adverse clinical events, showed predominant hepatic biodistribution, and achieved sustained supra-physiological OTC overexpression, supporting its clinical deployment for severe OTCD.
Population
Juvenile cynomolgus monkeys
Effective Dosage
2 × 10¹² and 2 × 10¹³ vector genome (vg)/kg
Duration
26 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
ammonia scavengers and protein-restricted diet | no change | acute hyperammonemia leading to neurological sequelae or death | Patients with X-linked inherited ornithine transcarbamylase deficiency (OTCD) | - | best-accepted therapy | #1 |
liver transplantation | decrease | X-linked inherited ornithine transcarbamylase deficiency (OTCD) | Patients with X-linked inherited ornithine transcarbamylase deficiency (OTCD) | - | curative | #2 |
Adeno-associated viral (AAV) vectors | increase | inherited metabolic liver diseases | patients in clinical trials | - | have demonstrated safety and clinical benefits | #3 |
Engineered AAV capsids | increase | liver tropism | - | - | have shown promising enhanced | #4 |
intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene | no change | safety | Juvenile cynomolgus monkeys | - | well tolerated with no adverse clinical events | #5 |
intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene | increase | vector biodistribution | Juvenile cynomolgus monkeys | - | predominant hepatic biodistribution | #6 |
intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene | increase | OTC overexpression | Juvenile cynomolgus monkeys | - | sustained supra-physiological | #7 |
intravenous AAVLK03 | increase | severe OTCD | - | - | supports the clinical deployment | #8 |
X-linked inherited ornithine transcarbamylase deficiency (OTCD) is the most common disorder affecting the liver-based urea cycle, a pathway enabling detoxification of nitrogen waste and endogenous arginine biosynthesis. Patients develop acute hyperammonemia leading to neurological sequelae or death despite the best-accepted therapy based on ammonia scavengers and protein-restricted diet. Liver transplantation is curative but associated with procedure-related complications and lifelong immunosuppression. Adeno-associated viral (AAV) vectors have demonstrated safety and clinical benefits in a rapidly growing number of clinical trials for inherited metabolic liver diseases. Engineered AAV capsids have shown promising enhanced liver tropism. Here, we conducted a good-laboratory practice-compliant investigational new drug-enabling study to assess the safety of intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene. Juvenile cynomolgus monkeys received vehicle and a low and high dose of vector (2 × 1012 and 2 × 1013 vector genome (vg)/kg, respectively) and were monitored for 26 weeks for in-life safety with sequential liver biopsies at 1 and 13 weeks post-vector administration. Upon completion of monitoring, animals were euthanized to study vector biodistribution, immune responses, and histopathology. The product was well tolerated with no adverse clinical events, predominant hepatic biodistribution, and sustained supra-physiological OTC overexpression. This study supports the clinical deployment of intravenous AAVLK03 for severe OTCD.