Mini-dCas13X–mediated RNA editing restores dystrophin expression in a humanized mouse model of Duchenne muscular dystrophy
Guoling Li, … , Chunlong Xu, Hui Yang
Guoling Li, … , Chunlong Xu, Hui Yang
Published December 13, 2022
Citation Information: J Clin Invest. 2023;133(3):e162809. https://doi.org/10.1172/JCI162809.
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Research Article

Mini-dCas13X–mediated RNA editing restores dystrophin expression in a humanized mouse model of Duchenne muscular dystrophy

Abstract

Approximately 10% of monogenic diseases are caused by nonsense point mutations that generate premature termination codons (PTCs), resulting in a truncated protein and nonsense-mediated decay of the mutant mRNAs. Here, we demonstrate a mini-dCas13X–mediated RNA adenine base editing (mxABE) strategy to treat nonsense mutation–related monogenic diseases via A-to-G editing in a genetically humanized mouse model of Duchenne muscular dystrophy (DMD). Initially, we identified a nonsense point mutation (c.4174C>T, p.Gln1392*) in the DMD gene of a patient and validated its pathogenicity in humanized mice. In this model, mxABE packaged in a single adeno-associated virus (AAV) reached A-to-G editing rates up to 84% in vivo, at least 20-fold greater than rates reported in previous studies using other RNA editing modalities. Furthermore, mxABE restored robust expression of dystrophin protein to over 50% of WT levels by enabling PTC read-through in multiple muscle tissues. Importantly, systemic delivery of mxABE by AAV also rescued dystrophin expression to averages of 37%, 6%, and 54% of WT levels in the diaphragm, tibialis anterior, and heart muscle, respectively, as well as rescued muscle function. Our data strongly suggest that mxABE-based strategies may be a viable new treatment modality for DMD and other monogenic diseases.

Authors

Guoling Li, Ming Jin, Zhifang Li, Qingquan Xiao, Jiajia Lin, Dong Yang, Yuanhua Liu, Xing Wang, Long Xie, Wenqin Ying, Haoqiang Wang, Erwei Zuo, Linyu Shi, Ning Wang, Wanjin Chen, Chunlong Xu, Hui Yang

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Figure 3

mxABE robustly rescues dystrophin expression in TA 3 weeks after AAV injection.

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mxABE robustly rescues dystrophin expression in TA 3 weeks after AAV inj...
(A) Overview of in vivo intramuscular (i.m.) injection of the AAV9-mxABE construct into the TA muscle of the right leg of 8-week-old DMDE30mut mice. Left leg was injected with saline as a control. Arrows indicate time points for tissue collection after injection. (B) The A-to-I efficiency of different AAV9 vectors was measured (n = 4). A cDNA amplicon spanning exon 30 was generated from the TA muscle and analyzed by deep sequencing. (C) Western blot analysis of dystrophin (MilliporeSigma, D8168) and vinculin (Cell Signaling Technology, 13901S) expression in TA muscles 3 weeks after injection with AAV9-mxABEs or saline. (D) Quantification of dystrophin expression from Western blots after normalization to vinculin expression (n = 3). Age-matched WT and saline-treated DMDE30mut mice were included as control. (E) Comparison of dystrophin expression among the 10 AAV9-mxABE systems by immunofluorescence. Dystrophin (Abcam, ab15277) is shown in green. Scale bar: 200 μm. (F) Quantification of Dys+ fibers in cross sections of TA muscles (n = 4). Data are represented as mean ± SEM. Each dot represents an individual mouse. Significance is indicated by an asterisk (P < 0.05). NS, not statistically significant using unpaired 2-tailed Student’s t test.