CRISPR-free, programmable RNA pseudouridylation to suppress premature termination codons
- PMID: 36521489
- DOI: 10.1016/j.molcel.2022.11.011
CRISPR-free, programmable RNA pseudouridylation to suppress premature termination codons
Abstract
Nonsense mutations, accounting for >20% of disease-associated mutations, lead to premature translation termination. Replacing uridine with pseudouridine in stop codons suppresses translation termination, which could be harnessed to mediate readthrough of premature termination codons (PTCs). Here, we present RESTART, a programmable RNA base editor, to revert PTC-induced translation termination in mammalian cells. RESTART utilizes an engineered guide snoRNA (gsnoRNA) and the endogenous H/ACA box snoRNP machinery to achieve precise pseudouridylation. We also identified and optimized gsnoRNA scaffolds to increase the editing efficiency. Unexpectedly, we found that a minor isoform of pseudouridine synthase DKC1, lacking a C-terminal nuclear localization signal, greatly improved the PTC-readthrough efficiency. Although RESTART induced restricted off-target pseudouridylation, they did not change the coding information nor the expression level of off-targets. Finally, RESTART enables robust pseudouridylation in primary cells and achieves functional PTC readthrough in disease-relevant contexts. Collectively, RESTART is a promising RNA-editing tool for research and therapeutics.
Keywords: DKC1; PTC readthrough; RNA base editor; RNA editing; RNA modification; RNA targeting; nonsense mutation; premature termination codon; pseudourine; snoRNA.
Copyright © 2022 Elsevier Inc. All rights reserved.
Conflict of interest statement
Declaration of interests A patent has been filed relating to the data presented.
Comment in
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Rewriting the message: Harnessing RNA pseudouridylation to tackle disease.Mol Cell. 2023 Feb 16;83(4):503-506. doi: 10.1016/j.molcel.2023.02.001. Mol Cell. 2023. PMID: 36804913
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