An in vitro and in vivo efficacy evaluation of gene therapy candidate SBT101 in mouse models of adrenomyeloneuropathy and in NHPs

Abstract

Adrenomyeloneuropathy; Gene therapy; Neurodegenerative disease

Adrenomieloneuropatía; Terapia génica; Enfermedad neurodegenerativa

Adrenomieloneuropatia; Teràpia gènica; Malaltia neurodegenerativa

Adrenomyeloneuropathy is a progressive neurodegenerative disease caused by pathogenic variants in the ABCD1 gene, resulting in very-long-chain fatty acid (VLCFA) accumulation that leads to dying-back axonopathy. Our candidate gene therapy, SBT101 (AAV9-human ABCD1 [hABCD1]), aims to ameliorate pathology by delivering functional copies of hABCD1 to the spinal cord. Transduced cells produce functional ABCD1 protein, thereby repairing the underlying biochemical defect. In vitro and in vivo mouse studies were conducted to assess the biochemical and functional efficacy of SBT101 and show effective delivery to target tissues involved in the disease pathology: spinal cord and dorsal root ganglia. Administration of SBT101 to mixed glial cell cultures from Abcd1-Null mice, and to male Abcd1 knockout (Abcd1−/y) and double-knockout (Abcd1−/y/Abcd2−/−) mice led to increased hABCD1 production and reduced VLCFA. Double-knockout mice also exhibited improved grip strength. Furthermore, we conducted biodistribution and safety assessments in nonhuman primates. Six-hour intrathecal lumbar infusions demonstrated effective transduction throughout target tissues, supporting the clinical feasibility of the procedure. SBT101 was well tolerated, with no observed SBT101-related mortality or clinical signs. These findings not only provide preclinical efficacy data for SBT101 but also inform clinically relevant SBT101 dose selection for patients with adrenomyeloneuropathy.

The studies were funded by SwanBio Therapeutic Ltd. The authors thank Eileen Sawyer for reviewing the manuscript and Dr. Javier del Rey for providing viral genome quantification and mRNA analysis in the DKO mouse in vivo study. The authors also thank Dr. David Gothard and Dr. Kirsty Walters of Oxford PharmaGenesis, Oxford, UK for providing medical writing support, which was sponsored by SwanBio in accordance with Good Publication Practice guidelines (GPP 2022).