Double MS2 guided restoration of genetic code in amber (TAG), opal (TGA) and ochre (TAA) stop codon

2021 
The popularity and promise of gene therapy for common genetic diseases are currently increasing. Although effective treatments for genetic disorders are rare, editing of the mutated gene is a possible therapeutic approach for conditions caused by stop codon mutations, including either amber (TAG), opal (TGA) or ochre (TAA) stop codons. Restoration of point-mutated RNAs using artificial RNA editing can be used to modify gene-encoded information and generate functionally distinct proteins from a single gene. By linking the catalytic domain of the RNA editing enzyme, adenosine deaminase acting on RNA (ADAR), to an antisense guide RNA, specific adenosines (A) can be converted to inosine (I), which is recognized as guanosine (G) during translation. In this study, we engineered the deaminase domain of ADAR1 and the MS2 system to target a specific adenosine and restore the G to A mutations. To this end, the ADAR1 deaminase domain was fused with the RNA binding protein, MS2, which binds to MS2 RNA. Guide RNAs of 19 bp were designed to be complementary to target mRNAs, with either 6X stem-loops downstream of the guide RNA and a CMV promoter, or a 1X MS2 stem-loop on either side of the guide RNA and a U6 promoter. The engineered ADAR1 deaminase domain could convert adenosine to inosine at the desired editing site in EGFP, which was edited to contain an amber (TAG), opal (TGA) or ochre (TAA) stop codon. The system could convert the stop codons to a read-through tryptophan codon (TGG) in a cellular system, leading to fluorescence emission, observed using JuLi microscopy. PCR-RFLP and Sanger sequencing of the target transcript were also conducted, revealing an editing efficiency of 20.97 % for the opal stop codon, and 26 % and 17 % for the 5' and 3' A residues, respectively, in the ochre stop codon, using the double MS2. This was a higher editing rate than that achieved using the MS2-6X guide RNA. Observation of restoration of the read-through codon from the three different stop codons over time demonstrated a relatively low percentage of edited codons after 24 h, which increased after 48 h, but decreased again after 72 h. Successful establishment of this system has the potential to represent a new era in the field of gene therapy.
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