Recent Advances and Clinical Applications of Exon Inclusion for Spinal Muscular Atrophy

Methods in Molecular Biology
Hae-Won Son, Toshifumi Yokota

Abstract

Spinal muscular atrophy (SMA) is an autosomal recessive disorder caused by a mutation in SMN1 that stops production of SMN (survival of motor neuron) protein. Insufficient levels of SMN results in the loss of motor neurons, which causes muscle weakness, respiratory distress, and paralysis. A nearly identical gene (SMN2) contains a C-to-T transition which excludes exon 7 from 90% of the mature mRNA transcripts, leading to unstable proteins which are targeted for degradation. Although SMN2 cannot fully compensate for a loss of SMN1 due to only 10% functional mRNA produced, the discovery of the intronic splicing silencer (ISS-N1) opened a doorway for therapy. By blocking its function with antisense oligonucleotides manipulated for high specificity and efficiency, exon 7 can be included to produce full-length mRNA, which then compensates for the loss of SMN1. Nusinersen (Spinraza), the first FDA-approved antisense oligonucleotide drug targeting SMA, was designed based on this concept and clinical studies have demonstrated a dramatic improvement in patients. Novel chemistries including phosphorodiamidate morpholino oligomers (PMOs) and locked nucleic acids (LNAs), as well as peptide conjugates such as Pip that facilitate accurate ta...Continue Reading

Citations

Jan 25, 2020·Expert Opinion on Pharmacotherapy·Sithara Ramdas, Laurent Servais

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