TY - JOUR
T1 - Use of adenine base editing and homology-independent targeted integration strategies to correct the cystic fibrosis causing variant, W1282X
AU - Mention, Karen
AU - Cavusoglu-Doran, Kader
AU - Joynt, Anya T.
AU - Santos, Lúcia
AU - Sanz, David
AU - Eastman, Alice C.
AU - Merlo, Christian
AU - Langfelder-Schwind, Elinor
AU - Scallan, Martina F.
AU - Farinha, Carlos M.
AU - Cutting, Garry R.
AU - Sharma, Neeraj
AU - Harrison, Patrick T.
N1 - Publisher Copyright:
© 2023 Oxford University Press. All rights reserved.
PY - 2023/12/1
Y1 - 2023/12/1
N2 - Small molecule drugs known as modulators can treat ~90% of people with cystic fibrosis (CF), but do not work for premature termination codon variants such as W1282X (c.3846G>A). Here we evaluated two gene editing strategies, Adenine Base Editing (ABE) to correct W1282X, and Homology-Independent Targeted Integration (HITI) of a CFTR superexon comprising exons 23-27 (SE23-27) to enable expression of a CFTR mRNA without W1282X. In Flp-In-293 cells stably expressing a CFTR expression minigene bearing W1282X, ABE corrected 24% of W1282X alleles, rescued CFTR mRNA from nonsense mediated decay and restored protein expression. However, bystander editing at the adjacent adenine (c.3847A>G), caused an amino acid change (R1283G) that affects CFTR maturation and ablates ion channel activity. In primary human nasal epithelial cells homozygous for W1282X, ABE corrected 27% of alleles, but with a notably lower level of bystander editing, and CFTR channel function was restored to 16% of wild-Type levels. Using the HITI approach, correct integration of a SE23 27 in intron 22 of the CFTR locus in 16HBEge W1282X cells was detected in 5.8% of alleles, resulting in 7.8% of CFTR transcripts containing the SE23 27 sequence. Analysis of a clonal line homozygous for the HITI-SE23 27 produced full-length mature protein and restored CFTR anion channel activity to 10% of wild-Type levels, which could be increased three-fold upon treatment with the triple combination of CF modulators. Overall, these data demonstrate two different editing strategies can successfully correct W1282X, the second most common class I variant, with a concomitant restoration of CFTR function.
AB - Small molecule drugs known as modulators can treat ~90% of people with cystic fibrosis (CF), but do not work for premature termination codon variants such as W1282X (c.3846G>A). Here we evaluated two gene editing strategies, Adenine Base Editing (ABE) to correct W1282X, and Homology-Independent Targeted Integration (HITI) of a CFTR superexon comprising exons 23-27 (SE23-27) to enable expression of a CFTR mRNA without W1282X. In Flp-In-293 cells stably expressing a CFTR expression minigene bearing W1282X, ABE corrected 24% of W1282X alleles, rescued CFTR mRNA from nonsense mediated decay and restored protein expression. However, bystander editing at the adjacent adenine (c.3847A>G), caused an amino acid change (R1283G) that affects CFTR maturation and ablates ion channel activity. In primary human nasal epithelial cells homozygous for W1282X, ABE corrected 27% of alleles, but with a notably lower level of bystander editing, and CFTR channel function was restored to 16% of wild-Type levels. Using the HITI approach, correct integration of a SE23 27 in intron 22 of the CFTR locus in 16HBEge W1282X cells was detected in 5.8% of alleles, resulting in 7.8% of CFTR transcripts containing the SE23 27 sequence. Analysis of a clonal line homozygous for the HITI-SE23 27 produced full-length mature protein and restored CFTR anion channel activity to 10% of wild-Type levels, which could be increased three-fold upon treatment with the triple combination of CF modulators. Overall, these data demonstrate two different editing strategies can successfully correct W1282X, the second most common class I variant, with a concomitant restoration of CFTR function.
KW - CFTR
KW - CRISPR
KW - HITI
KW - W1282X
KW - adenine base editing
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U2 - 10.1093/hmg/ddad143
DO - 10.1093/hmg/ddad143
M3 - Article
C2 - 37649273
AN - SCOPUS:85177503376
SN - 0964-6906
VL - 32
SP - 3237
EP - 3248
JO - Human molecular genetics
JF - Human molecular genetics
IS - 23
ER -