Antibody-oligonucleotide conjugate achieves CNS delivery in animal models for spinal muscular atrophy
Suzan M. Hammond, Frank Abendroth, Larissa Goli, Jessica Stoodley, Matthew Burrell, George Thom, Ian Gurrell, Nina Ahlskog, Michael J. Gait, Matthew J.A. Wood, Carl I. Webster
Suzan M. Hammond, Frank Abendroth, Larissa Goli, Jessica Stoodley, Matthew Burrell, George Thom, Ian Gurrell, Nina Ahlskog, Michael J. Gait, Matthew J.A. Wood, Carl I. Webster
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Research Article Neuroscience

Antibody-oligonucleotide conjugate achieves CNS delivery in animal models for spinal muscular atrophy

Abstract

Antisense oligonucleotides (ASOs) have emerged as one of the most innovative new genetic drug modalities. However, their high molecular weight limits their bioavailability for otherwise-treatable neurological disorders. We investigated conjugation of ASOs to an antibody against the murine transferrin receptor, 8D3130, and evaluated it via systemic administration in mouse models of the neurodegenerative disease spinal muscular atrophy (SMA). SMA, like several other neurological and neuromuscular diseases, is treatable with single-stranded ASOs that modulate splicing of the survival motor neuron 2 (SMN2) gene. Administration of 8D3130-ASO conjugate resulted in elevated levels of bioavailability to the brain. Additionally, 8D3130-ASO yielded therapeutic levels of SMN2 splicing in the central nervous system of adult human SMN2–transgenic (hSMN2-transgenic) mice, which resulted in extended survival of a severely affected SMA mouse model. Systemic delivery of nucleic acid therapies with brain-targeting antibodies offers powerful translational potential for future treatments of neuromuscular and neurodegenerative diseases.

Authors

Suzan M. Hammond, Frank Abendroth, Larissa Goli, Jessica Stoodley, Matthew Burrell, George Thom, Ian Gurrell, Nina Ahlskog, Michael J. Gait, Matthew J.A. Wood, Carl I. Webster

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Figure 4

In vivo activity and concentration of antibody-PMOs in peripheral tissues of adult SMN2-transgenic mice.

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In vivo activity and concentration of antibody-PMOs in peripheral tissue...
Tail vein administration of 8D3130-PMO and NIP228-PMO was given at 8 weeks of age and tissues were harvested 7 days postadministration. Splice switching activity of the compounds compared with saline treatment on the human SMN2 transgene was analyzed via qPCR and Western blots (mean ± SD). qRT-PCR (A) and Western blot analysis (B) of skeletal muscles tibialis anterior (TA) and quadriceps (Quad). TA exhibited differences in activity between 8D3130-PMO and NIP228-PMO treatment groups. Quad show equal activity of both 8D3130-PMO and NIP228-PMO. qRT-PCR (C) and Western blot analysis (D) of liver and kidney tissues. Both 8D3130-PMO and NIP228-PMO are highly active in liver and less active in kidney. PMO concentration as determined by ELISA in (E) TA, (F) Quad, (G) liver, and (H) kidney following 50 mg/kg administration. 8D3130-scrPMO is used as negative control. Statistical significance (representative P values) between 8D3130-PMO versus saline (*) and 8D3130-PMO versus NIP228-PMO (#) was evaluated in GraphPad Prism. Data shown as the mean ± SD, n = 5–6 per group. qRT-PCR and Western blots were analyzed with 2-way ANOVA corrected for multiple comparisons using Dunnett’s test. ELISA for PMO concentration was analyzed with 1-way ANOVA corrected for multiple comparisons using Tukey test. P values adjusted to account for each comparison, confidence level 0.95%. *P < 0.05, **P < 0.005, ***P < 0.0005, ****P < 0.0001, #P < 0.05; ####P < 0.0001.