Abstract

Aromatic L-amino acid decarboxylase deficiency is a genetic disorder of enzyme loss with decreased neurotransmitter synthesis, and it is characterized by symptoms of impaired motor development and cognitive function, hypotonia, dystonia, and oculogyric crises. Though symptomatic severity varies, the majority of patients experience severe motor impairments, including an inability to sit, stand, or walk. One approved therapy for Aromatic L-amino acid decarboxylase deficiency involves intraputaminal delivery of an adeno-associated virus packaging the human Aromatic L-amino acid decarboxylase enzyme (hAADC) cDNA. The objective of this study in monkeys was to determine the acceptability of ICV/IT as minimally invasive dosing options by evaluating hAADC biodistribution and expression following intraputaminal, intracerebroventricular (ICV), or intrathecal (IT, lumbar) administration. Results show that all routes produced comparable CSF transgene levels and were well-tolerated. The intraputaminal route yielded the highest levels of transgene-derived mRNA expression in the putamen, caudate, and globus pallidus, while expression levels in the spinal cord and dorsal root ganglia (DRG, a target of special toxicological concern) were undetectable. In contrast, the highest transgene levels in ICV/IT groups were observed in the spinal cord and DRG, but levels were too low to result in expression in the putamen, caudate, and globus pallidus. Unlike ICV/IT, the intraputaminal route produced no transgene in blood, suggesting a lower likelihood of off-target toxicities. Additionally, intraputaminal dosing resulted in the lowest anti-AAV2 antibody (anti-drug antibody) levels. Together, these data demonstrate the superiority of intraputaminal administration over ICV/IT routes in achieving AAV2-hAADC transgene DNA distribution and mRNA expression in target therapeutic areas while minimizing risk of toxicity.

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