Molecular Therapy: Nucleic Acids (Dec 2023)

Peptide-conjugated antimiRs improve myotonic dystrophy type 1 phenotypes by promoting endogenous MBNL1 expression

  • Irene González-Martínez,
  • Estefanía Cerro-Herreros,
  • Nerea Moreno,
  • Andrea García-Rey,
  • Jorge Espinosa-Espinosa,
  • Marc Carrascosa-Sàez,
  • Diego Piqueras-Losilla,
  • Andrey Arzumanov,
  • David Seoane-Miraz,
  • Yahya Jad,
  • Richard Raz,
  • Matthew J. Wood,
  • Miguel A. Varela,
  • Beatriz Llamusí,
  • Rubén Artero

Journal volume & issue
Vol. 34
p. 102024

Abstract

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Myotonic dystrophy type 1 (DM1) is a rare neuromuscular disease caused by a CTG repeat expansion in the DMPK gene that generates toxic RNA with a myriad of downstream alterations in RNA metabolism. A key consequence is the sequestration of alternative splicing regulatory proteins MBNL1/2 by expanded transcripts in the affected tissues. MBNL1/2 depletion interferes with a developmental alternative splicing switch that causes the expression of fetal isoforms in adults. Boosting the endogenous expression of MBNL proteins by inhibiting the natural translational repressors miR-23b and miR-218 has previously been shown to be a promising therapeutic approach. We designed antimiRs against both miRNAs with a phosphorodiamidate morpholino oligonucleotide (PMO) chemistry conjugated to cell-penetrating peptides (CPPs) to improve delivery to affected tissues. In DM1 cells, CPP-PMOs significantly increased MBNL1 levels. In some candidates, this was achieved using concentrations less than two orders of magnitude below the median toxic concentration, with up to 5.38-fold better therapeutic window than previous antagomiRs. In HSALR mice, intravenous injections of CPP-PMOs improve molecular, histopathological, and functional phenotypes, without signs of toxicity. Our findings place CPP-PMOs as promising antimiR candidates to overcome the treatment delivery challenge in DM1 therapy.

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