EMBO Molecular Medicine (Feb 2024)

Improved gene therapy for spinal muscular atrophy in mice using codon-optimized hSMN1 transgene and hSMN1 gene-derived promotor

  • Qing Xie,
  • Xiupeng Chen,
  • Hong Ma,
  • Yunxiang Zhu,
  • Yijie Ma,
  • Leila Jalinous,
  • Gerald F Cox,
  • Fiona Weaver,
  • Jun Yang,
  • Zachary Kennedy,
  • Alisha Gruntman,
  • Ailing Du,
  • Qin Su,
  • Ran He,
  • Phillip WL Tai,
  • Guangping Gao,
  • Jun Xie

DOI
https://doi.org/10.1038/s44321-024-00037-x
Journal volume & issue
Vol. 16, no. 4
pp. 945 – 965

Abstract

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Abstract Physiological regulation of transgene expression is a major challenge in gene therapy. Onasemnogene abeparvovec (Zolgensma®) is an approved adeno-associated virus (AAV) vector gene therapy for infants with spinal muscular atrophy (SMA), however, adverse events have been observed in both animals and patients following treatment. The construct contains a native human survival motor neuron 1 (hSMN1) transgene driven by a strong, cytomegalovirus enhancer/chicken β-actin (CMVen/CB) promoter providing high, ubiquitous tissue expression of SMN. We developed a second-generation AAV9 gene therapy expressing a codon-optimized hSMN1 transgene driven by a promoter derived from the native hSMN1 gene. This vector restored SMN expression close to physiological levels in the central nervous system and major systemic organs of a severe SMA mouse model. In a head-to-head comparison between the second-generation vector and a benchmark vector, identical in design to onasemnogene abeparvovec, the 2nd-generation vector showed better safety and improved efficacy in SMA mouse model.

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