In utero and postnatal ivacaftor/lumacaftor therapy rescues multiorgan disease in CFTR-F508del ferrets
Idil Apak Evans, Xingshen Sun, Bo Liang, Amber R. Vegter, Lydia Guo, Thomas J. Lynch, Yan Zhang, Yulong Zhang, Yaling Yi, Yu Yang, Zehua Feng, Soo Yeun Park, Amanita Shonka, Hannah McCumber, Lisi Qi, Peipei Wu, Guangming Liu, Allison Lacina, Kai Wang, Katherine N. Gibson-Corley, David K. Meyerholz, Dominique H. Limoli, Bradley H. Rosen, Ziying Yan, Douglas J. Bartels, John F. Engelhardt
Idil Apak Evans, Xingshen Sun, Bo Liang, Amber R. Vegter, Lydia Guo, Thomas J. Lynch, Yan Zhang, Yulong Zhang, Yaling Yi, Yu Yang, Zehua Feng, Soo Yeun Park, Amanita Shonka, Hannah McCumber, Lisi Qi, Peipei Wu, Guangming Liu, Allison Lacina, Kai Wang, Katherine N. Gibson-Corley, David K. Meyerholz, Dominique H. Limoli, Bradley H. Rosen, Ziying Yan, Douglas J. Bartels, John F. Engelhardt
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Research Article Pulmonology Therapeutics

In utero and postnatal ivacaftor/lumacaftor therapy rescues multiorgan disease in CFTR-F508del ferrets

Abstract

Cystic fibrosis (CF) is caused by mutations in the CF transmembrane conductance regulator (CFTR) gene, with F508del being the most prevalent mutation. The combination of CFTR modulators (potentiator and correctors) has provided benefit to CF patients carrying the F508del mutation; however, the safety and effectiveness of in utero combination modulator therapy remains unclear. We created a F508del ferret model to test whether ivacaftor/lumacaftor (VX-770/VX-809) therapy can rescue in utero and postnatal pathologies associated with CF. Using primary intestinal organoids and air-liquid interface cultures of airway epithelia, we demonstrate that the F508del mutation in ferret CFTR results in a severe folding and trafficking defect, which can be partially restored by treatment with CFTR modulators. In utero treatment of pregnant jills with ivacaftor/lumacaftor prevented meconium ileus at birth in F508del kits and sustained postnatal treatment of CF offspring improved survival and partially protected from pancreatic insufficiency. Withdrawal of ivacaftor/lumacaftor treatment from juvenile CF ferrets reestablished pancreatic and lung diseases, with altered pulmonary mechanics. These findings suggest that in utero intervention with a combination of CFTR modulators may provide therapeutic benefits to individuals with F508del. This CFTR-F508del ferret model may be useful for testing therapies using clinically translatable endpoints.

Authors

Idil Apak Evans, Xingshen Sun, Bo Liang, Amber R. Vegter, Lydia Guo, Thomas J. Lynch, Yan Zhang, Yulong Zhang, Yaling Yi, Yu Yang, Zehua Feng, Soo Yeun Park, Amanita Shonka, Hannah McCumber, Lisi Qi, Peipei Wu, Guangming Liu, Allison Lacina, Kai Wang, Katherine N. Gibson-Corley, David K. Meyerholz, Dominique H. Limoli, Bradley H. Rosen, Ziying Yan, Douglas J. Bartels, John F. Engelhardt

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Figure 1

Generation of F508del-knockin ferret and characterization of CFTR mRNA expression.

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Generation of F508del-knockin ferret and characterization of CFTR mRNA e...
(A) Schematic of the targeting strategy at the ferret CFTR exon 11 locus using Cas9/gRNA complex and oligonucleotide mutagenesis template targeting deletion of F508. Forward (F) and reverse (R) primers used for amplification of the locus are marked by arrows. (B) Sequencing results of PCR-amplified genomic DNA, using F/R primers shown in A, from a heterozygous F508del founder. The sequence confirms deletion of the nucleotide triplet (CTT), which resulted in F508del. (C) Two-step genotyping protocol used to differentiate WT, CFTR-F508del heterozygous (Het), and CFTR-F508del homozygous (Homo) offspring. Step 1: The first Surveyor step distinguished a heterozygous genotype from homozygous and WT. Only the heterozygous PCR product is cleaved during the Surveyor assay due to the mismatch in bases (marked with X), giving rise to 2 bands on agarose gels. Step 2: To distinguish homozygous from WT genotypes, reference WT and test sample genomic DNA are mixed at a ratio of 0.5:1 (WT/Test) and PCR is then performed with F/R primers. These PCR products are then used in a second Surveyor assay. Only the homozygous PCR product is cleaved during the Surveyor assay due to the mismatch in bases (marked with X), giving rise to 2 bands on agarose gels. (D) qPCR analysis for CFTR mRNA on ferret intestinal organoids generated from CFTR-KO (n = 4 donors), CFTR-WT (n = 8 donors), and CFTR-F508del homozygous (n = 3 donors) ferrets. Data represent mean ± range. (E) qPCR analysis for CFTR mRNA from proximal intestine (n = 5 donors), trachea (n = 4 donors for WT and n = 5 donors for F508del), and lung (n = 5 donors) from CFTR-WT and CFTR-F508del newborn ferrets. Data represent mean ± SEM.