Ferret models of alpha-1 antitrypsin deficiency develop lung and liver disease
Nan He, Xiaoming Liu, Amber R. Vegter, T. Idil A. Evans, Jaimie S. Gray, Junfeng Guo, Shashanna R. Moll, Lydia J. Guo, Meihui Luo, Ningxia Ma, Xingshen Sun, Bo Liang, Ziying Yan, Zehua Feng, Lisi Qi, Arnav S. Joshi, Weam Shahin, Yaling Yi, Katherine N. Gibson-Corley, Eric A. Hoffman, Kai Wang, Christian Mueller, John F. Engelhardt, Bradley H. Rosen
Nan He, Xiaoming Liu, Amber R. Vegter, T. Idil A. Evans, Jaimie S. Gray, Junfeng Guo, Shashanna R. Moll, Lydia J. Guo, Meihui Luo, Ningxia Ma, Xingshen Sun, Bo Liang, Ziying Yan, Zehua Feng, Lisi Qi, Arnav S. Joshi, Weam Shahin, Yaling Yi, Katherine N. Gibson-Corley, Eric A. Hoffman, Kai Wang, Christian Mueller, John F. Engelhardt, Bradley H. Rosen
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Research Article Pulmonology

Ferret models of alpha-1 antitrypsin deficiency develop lung and liver disease

Abstract

Alpha-1 antitrypsin deficiency (AATD) is the most common genetic cause and risk factor for chronic obstructive pulmonary disease, but the field lacks a large-animal model that allows for longitudinal assessment of pulmonary function. We hypothesized that ferrets would model human AATD-related lung and hepatic disease. AAT-knockout (AAT-KO) and PiZZ (E342K, the most common mutation in humans) ferrets were generated and compared with matched controls using custom-designed flexiVent modules to perform pulmonary function tests, quantitative computed tomography (QCT), bronchoalveolar lavage (BAL) proteomics, and alveolar morphometry. Complete loss of AAT (AAT-KO) led to increased pulmonary compliance and expiratory airflow limitation, consistent with obstructive lung disease. QCT and morphometry confirmed emphysema and airspace enlargement, respectively. Pathway analysis of BAL proteomics data revealed inflammatory lung disease and impaired cellular migration. The PiZ mutation resulted in altered AAT protein folding in the liver, hepatic injury, and reduced plasma concentrations of AAT, and PiZZ ferrets developed obstructive lung disease. In summary, AAT-KO and PiZZ ferrets model the progressive obstructive pulmonary disease seen in AAT-deficient patients and may serve as a platform for preclinical testing of therapeutics including gene therapy.

Authors

Nan He, Xiaoming Liu, Amber R. Vegter, T. Idil A. Evans, Jaimie S. Gray, Junfeng Guo, Shashanna R. Moll, Lydia J. Guo, Meihui Luo, Ningxia Ma, Xingshen Sun, Bo Liang, Ziying Yan, Zehua Feng, Lisi Qi, Arnav S. Joshi, Weam Shahin, Yaling Yi, Katherine N. Gibson-Corley, Eric A. Hoffman, Kai Wang, Christian Mueller, John F. Engelhardt, Bradley H. Rosen

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Figure 4

Emphysema drives airflow obstruction in AAT-KO ferrets.

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Emphysema drives airflow obstruction in AAT-KO ferrets. (A–C) Representa...
(AC) Representative coronal CT reconstructions from control (A) and AAT-KO (B and C) ferrets with voxels at or below Hounsfield units (HU) of –900 pseudocolored in green. FEV0.4:FVC is indicated below each panel. (D) QCT analysis of AAT-KO and control ferrets at total lung capacity (TLC, airway pressure = 25cmH2O) reveals increased percentage of lower density voxels at various standard HU thresholds (n = 10 matched ferret pairs; P value by multivariate linear regression for all measures together, P = 0.025. Also shown are Student’s t tests for each measurement where *P < 0.05, specifically: –950, –900, and –870 HU. (E and F) Percentage of voxels at or below each indicated HU threshold plotted against the FEV0.4:FVC ratio for each control (E) and AAT-KO (F) ferret. (n = 10 matched ferret pairs; P value by linear regression model, P < 0.05 for all AAT-KO.) (GJ) Representative sections of lung from control (G and I) and AAT-KO (H and J) ferrets stained with H&E. Boxed regions in G and H are enlarged in I and J, respectively. Scale bars in G and H represent 100 μm and in I and J represent 50 μm. (K) Summary of alveolar area-to-perimeter ratio in inflation-fixed lungs with all lobes averaged for each animal (n = 6 ferrets from each genotype; P value by paired Student’s t test, P < 0.001). (L) Data from K are shown for each lobe. In E, F, K, and L, squares = males and circles = females. Graphs in D, K, and L show mean ± SEM. *P < 0.05, ***P < 0.001. LUL, left upper lobe; LLL, left lower lobe; RUL, right upper lobe; RML, right middle lobe; RLL, right lower lobe.