α-Synuclein antisense oligonucleotides as a disease-modifying therapy for Parkinson’s disease
Tracy A. Cole, Hien Zhao, Timothy J. Collier, Ivette Sandoval, Caryl E. Sortwell, Kathy Steece-Collier, Brian F. Daley, Alix Booms, Jack Lipton, Mackenzie Welch, Melissa Berman, Luke Jandreski, Danielle Graham, Andreas Weihofen, Stephanie Celano, Emily Schulz, Allyson Cole-Strauss, Esteban Luna, Duc Quach, Apoorva Mohan, C. Frank Bennett, Eric E. Swayze, Holly B. Kordasiewicz, Kelvin C. Luk, Katrina L. Paumier
Tracy A. Cole, Hien Zhao, Timothy J. Collier, Ivette Sandoval, Caryl E. Sortwell, Kathy Steece-Collier, Brian F. Daley, Alix Booms, Jack Lipton, Mackenzie Welch, Melissa Berman, Luke Jandreski, Danielle Graham, Andreas Weihofen, Stephanie Celano, Emily Schulz, Allyson Cole-Strauss, Esteban Luna, Duc Quach, Apoorva Mohan, C. Frank Bennett, Eric E. Swayze, Holly B. Kordasiewicz, Kelvin C. Luk, Katrina L. Paumier
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Research Article Neuroscience Therapeutics

α-Synuclein antisense oligonucleotides as a disease-modifying therapy for Parkinson’s disease

Abstract

Parkinson’s disease (PD) is a prevalent neurodegenerative disease with no approved disease-modifying therapies. Multiplications, mutations, and single nucleotide polymorphisms in the SNCA gene, encoding α-synuclein (aSyn) protein, either cause or increase risk for PD. Intracellular accumulations of aSyn are pathological hallmarks of PD. Taken together, reduction of aSyn production may provide a disease-modifying therapy for PD. We show that antisense oligonucleotides (ASOs) reduce production of aSyn in rodent preformed fibril (PFF) models of PD. Reduced aSyn production leads to prevention and removal of established aSyn pathology and prevents dopaminergic cell dysfunction. In addition, we address the translational potential of the approach through characterization of human SNCA-targeting ASOs that efficiently suppress the human SNCA transcript in vivo. We demonstrate broad activity and distribution of the human SNCA ASOs throughout the nonhuman primate brain and a corresponding decrease in aSyn cerebral spinal fluid (CSF) levels. Taken together, these data suggest that, by inhibiting production of aSyn, it may be possible to reverse established pathology; thus, these data support the development of SNCA ASOs as a potential disease-modifying therapy for PD and related synucleinopathies.

Authors

Tracy A. Cole, Hien Zhao, Timothy J. Collier, Ivette Sandoval, Caryl E. Sortwell, Kathy Steece-Collier, Brian F. Daley, Alix Booms, Jack Lipton, Mackenzie Welch, Melissa Berman, Luke Jandreski, Danielle Graham, Andreas Weihofen, Stephanie Celano, Emily Schulz, Allyson Cole-Strauss, Esteban Luna, Duc Quach, Apoorva Mohan, C. Frank Bennett, Eric E. Swayze, Holly B. Kordasiewicz, Kelvin C. Luk, Katrina L. Paumier

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Figure 3

ASO-mediated suppression of Snca exhibits a prolonged duration of action and prevents dopaminergic cell dysfunction in an in vivo PFF model of PD.

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ASO-mediated suppression of Snca exhibits a prolonged duration of action...
(A) Time course of Snca mRNA reduction (the 1000 μg results for the 3-week time point in Figure 2, A–C are included). (BE) Results from ASO administration (1000 μg) prior to PFF injection paradigm in rats with study termination at 181 days. (B) Timeline for ASO administration prior to PFF injection paradigm in rats. (CE) pSer129+ aggregate counts using total enumeration by IHC (n = 13, 13, and 15 for PBS, ASO1, and CTL ASO, respectively), dopaminergic cell counts by IHC (by stereology) (n = 13, 13, and 12 for PBS, ASO1, and CTL ASO, respectively), and striatal dopamine levels by HPLC normalized to the contralateral side (n = 13, 13, and 14 for PBS, ASO1, and CTL ASO, respectively). Data are represented as ± SEM. *P < 0.05, **P < 0.001, ***P < 0.0001, ****P < 0.00001 (1-way ANOVA with Tukey post hoc analyses). PFF, preformed fibril; TRMT, treatment; CTL ASO, control ASO. Statistical significance was also achieved when using nonparametric test Kruskall-Wallis for Figure 3, D and E; P ≥ 0.02. The same animal was high for TH and DA levels.