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
View: Text | PDF
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

×

Figure 2

Ferret F508del CFTR processing in intestinal organoids and differentiated air-liquid interface (ALI) cultures of airway epithelia.

Options: View larger image (or click on image) Download as PowerPoint
Ferret F508del CFTR processing in intestinal organoids and differentiate...
(A) Western blots of CFTR and β-tubulin protein expression from ferret intestinal organoids of WT, CFTR-KO (KO), and CFTR-F508del homozygous genotypes. Band C indicates the mature (complex glycosylated) form of CFTR and Band B indicates the immature (core glycosylated) form of CFTR. (B) Western blots of CFTR and β-tubulin protein expression from differentiated airway epithelia grown at an ALI generated from WT and F508del (homozygous) ferret tracheal basal cells. F508del cells were treated overnight with either vehicle (DMSO) or LUM (3 μM). (C) Western blot of WT and F508del ferret intestinal organoid lysates incubated with or without endoglycosidase H (EndoH) to cleave N-linked glycosylated residues added in the ER. Susceptibility to EndoH cleavage indicates ER-resident CFTR (Band B) and produces the slightly smaller Band A form of CFTR. The fully mature form of CFTR (Band C) is not sensitive to EndoH. The majority of F508del CFTR protein is thus resident in the ER. (D) F508del ferret organoids were incubated at 37°C for 16 hours in the presence of vehicle (DMSO), LUM (CFTR corrector), IVA (CFTR potentiator) and LUM, or ELX and TEZ (CFTR correctors) at 3 μM final concentration. (E) F508del homozygous differentiated airway cultures grown at an ALI were incubated with LUM (3 μM, 16 hours at 37°C) and then evaluated by Western blotting. Three independent donor animals were used per condition. (FH) Quantification of the relative intensity of CFTR forms normalized to β-tubulin in differentiated airway cultures treated with vehicle (DMSO) or LUM: (F) (Band C + Band B)/β-tubulin, (G) Band C/β-tubulin, and (H) Band B/β-tubulin. Data represent mean ± SEM. Statistical significance evaluated by paired 2-tailed Student’s t test (n = 6 Transwells, reflecting 2 replicates from each of 3 independent donors). P values are given in each panel.