Engineered microRNA-based regulatory element permits safe high-dose miniMECP2 gene therapy in Rett mice

Sarah E. Sinnett, Emily Boyle, Christopher Lyons, Steven J. Gray

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

MECP2 gene transfer has been shown to extend the survival of Mecp2-/y knockout mice modelling Rett syndrome, an X-linked neurodevelopmental disorder. However, controlling deleterious overexpression of MECP2 remains the critical unmet obstacle towards a safe and effective gene therapy approach for Rett syndrome. A recently developed truncated miniMECP2 gene has also been shown to be therapeutic after AAV9-mediated gene transfer in knockout neonates. We show that AAV9/miniMECP2 has a similar dose-dependent toxicity profile to that of a published second-generation AAV9/MECP2 vector after treatment in adolescent mice. To overcome that toxicity, we developed a risk-driven viral genome design strategy rooted in high-throughput profiling and genome mining to rationally develop a compact, synthetic microRNA target panel (miR-responsive auto-regulatory element, 'miRARE') to minimize the possibility of miniMECP2 transgene overexpression in the context of Rett syndrome gene therapy. The goal of miRARE is to have a built-in inhibitory element responsive to MECP2 overexpression. The data provided herein show that insertion of miRARE into the miniMECP2 gene expression cassette greatly improved the safety of miniMECP2 gene transfer without compromising efficacy. Importantly, this built-in regulation system does not require any additional exogenous drug application, and no miRNAs are expressed from the transgene cassette. Although broad applications of miRARE have yet to be determined, the design of miRARE suggests a potential use in gene therapy approaches for other dose-sensitive genes.

Original languageEnglish (US)
Pages (from-to)3005-3019
Number of pages15
JournalBrain
Volume144
Issue number10
DOIs
StatePublished - Oct 1 2021

Keywords

  • AAV
  • MECP2
  • Rett
  • intrathecal
  • microRNA

ASJC Scopus subject areas

  • Clinical Neurology

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