Nature Communications (Jul 2024)

Ube3a unsilencer for the potential treatment of Angelman syndrome

  • Hanna Vihma,
  • Kelin Li,
  • Anna Welton-Arndt,
  • Audrey L. Smith,
  • Kiran R. Bettadapur,
  • Rachel B. Gilmore,
  • Eric Gao,
  • Justin L. Cotney,
  • Hsueh-Cheng Huang,
  • Jon L. Collins,
  • Stormy J. Chamberlain,
  • Hyeong-Min Lee,
  • Jeffrey Aubé,
  • Benjamin D. Philpot

DOI
https://doi.org/10.1038/s41467-024-49788-8
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Deletion of the maternal UBE3A allele causes Angelman syndrome (AS); because paternal UBE3A is epigenetically silenced by a long non-coding antisense (UBE3A-ATS) in neurons, this nearly eliminates UBE3A protein in the brain. Reactivating paternal UBE3A holds promise for treating AS. We previously showed topoisomerase inhibitors can reactivate paternal UBE3A, but their therapeutic challenges prompted our search for small molecule unsilencers with a different mechanism of action. Here, we found that (S)-PHA533533 acts through a novel mechanism to significantly increase paternal Ube3a mRNA and UBE3A protein levels while downregulating Ube3a-ATS in primary neurons derived from AS model mice. Furthermore, peripheral delivery of (S)-PHA533533 in AS model mice induces widespread neuronal UBE3A expression. Finally, we show that (S)-PHA533533 unsilences paternal UBE3A in AS patient-derived neurons, highlighting its translational potential. Our findings provide a lead for developing a small molecule treatment for AS that could be safe, non-invasively delivered, and capable of brain-wide unsilencing of paternal UBE3A.