Cytosolic microRNA-inducible nuclear translocation of Cas9 protein for disease-specific genome modification

Abstract MicroRNA-dependent mRNA decay plays an important role in gene silencing by facilitating posttranscriptional and translational repression. Inspired by this intrinsic nature of microRNA-mediated mRNA cleavage, here, we describe a microRNA-targeting mRNA as a switch platform called mRNA bridge...

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Bibliographic Details
Published in:Nucleic acids research Vol. 50; no. 10; pp. 5919 - 5933
Main Authors: Shin, Cheol-Hee, Park, Su Chan, Park, Il-Geun, Kim, Hyerim, An, Byoungha, Lee, Choongil, Kim, Sang-Heon, Lee, Juyong, Lee, Ji Min, Oh, Seung Ja
Format: Journal Article
Language:English
Published: England Oxford University Press 10-06-2022
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Summary:Abstract MicroRNA-dependent mRNA decay plays an important role in gene silencing by facilitating posttranscriptional and translational repression. Inspired by this intrinsic nature of microRNA-mediated mRNA cleavage, here, we describe a microRNA-targeting mRNA as a switch platform called mRNA bridge mimetics to regulate the translocation of proteins. We applied the mRNA bridge mimetics platform to Cas9 protein to confer it the ability to translocate into the nucleus via cleavage of the nuclear export signal. This system performed programmed gene editing in vitro and in vivo. Combinatorial treatment with cisplatin and miR-21-EZH2 axis-targeting CRISPR Self Check-In improved sensitivity to chemotherapeutic drugs in vivo. Using the endogenous microRNA-mediated mRNA decay mechanism, our platform is able to remodel a cell's natural biology to allow the entry of precise drugs into the nucleus, devoid of non-specific translocation. The mRNA bridge mimetics strategy is promising for applications in which the reaction must be controlled via intracellular stimuli and modulates Cas9 proteins to ensure safe genome modification in diseased conditions.
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The authors wish it to be known that, in their opinion, the first two authors should be regarded as Joint First Authors.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkac431