Restoration of dystrophin expression in mice by suppressing a nonsense mutation through the incorporation of unnatural amino acids
Shi Ningning, Yang Qi, Zhang Haoran, Lu Jiaqi, Lin Haishuang, Yang Xu, Abulimiti Aikedan, Cheng Jialu, Wang Yu, Tong Le, Wang Tianchang, Zhang Xiaodong, Chen Hongmin, Xia Qing
Journal:Nature Biomedical Engineering
IF:25.67
DOI:10.1038/s41551-021-00774-1
PMID:34341535
Published:2021-08-02
research field:药物设计传染病学微生物学药物化学生物化学
Abstract
Approximately 11% of monogenic diseases involve nonsense mutations that are caused by premature termination codons. These codons can in principle be read-through via the site-specific incorporation of unnatural amino acids to generate full-length proteins with minimal loss of function. Here we report that aminoacyl-tRNA-synthase–tRNA pairs specific for the desired unnatural amino acids can be used to read through a nonsense mutation in the dystrophin gene. We show partial restoration of dystrophin expression in differentiated primary myoblasts (from a mdx mouse model and a patient with Duchenne muscular dystrophy), and restoration of muscle function in two mouse models : mdx mice, via viral delivery of the engineered tRNA-synthase–tRNA pair intraperitoneally or intramuscularly and of the associated unnatural amino acid intraperitoneally; and mice produced by crossing mdx mice and transgenic mice with a chromosomally integrated pair, via intraperitoneal delivery of the unnatural amino acid. The incorporation of unnatural amino acids to restore endogenous protein expression could be explored for therapeutic use.
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