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Diverse targets of<i>SMN2</i>-directed splicing-modulating small molecule therapeutics for spinal muscular atrophy

Eric W. Ottesen, Natalia N. Singh, Diou Luo, Bailey Kaas, Benjamin Gillette, Joonbae Seo, Hannah J Jorgensen, Ravindra Singh

2023Nucleic Acids Research45 citationsDOIOpen Access PDF

Abstract

Designing an RNA-interacting molecule that displays high therapeutic efficacy while retaining specificity within a broad concentration range remains a challenging task. Risdiplam is an FDA-approved small molecule for the treatment of spinal muscular atrophy (SMA), the leading genetic cause of infant mortality. Branaplam is another small molecule which has undergone clinical trials. The therapeutic merit of both compounds is based on their ability to restore body-wide inclusion of Survival Motor Neuron 2 (SMN2) exon 7 upon oral administration. Here we compare the transcriptome-wide off-target effects of these compounds in SMA patient cells. We captured concentration-dependent compound-specific changes, including aberrant expression of genes associated with DNA replication, cell cycle, RNA metabolism, cell signaling and metabolic pathways. Both compounds triggered massive perturbations of splicing events, inducing off-target exon inclusion, exon skipping, intron retention, intron removal and alternative splice site usage. Our results of minigenes expressed in HeLa cells provide mechanistic insights into how these molecules targeted towards a single gene produce different off-target effects. We show the advantages of combined treatments with low doses of risdiplam and branaplam. Our findings are instructive for devising better dosing regimens as well as for developing the next generation of small molecule therapeutics aimed at splicing modulation.

Topics & Concepts

Spinal muscular atrophyBiologyExonExon skippingRNA splicingAlternative splicingIntronTranscriptomeRNASmall moleculeSMA*GeneComputational biologyCell biologyGeneticsCancer researchBioinformaticsGene expressionMathematicsCombinatoricsNeurogenetic and Muscular Disorders ResearchRNA modifications and cancerRNA Research and Splicing
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