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Am J Physiol Lung Cell Mol Physiol. 2018 Mar 1;314(3):L406-L420. doi: 10.1152/ajplung.00223.2017. Epub 2017 Nov 22.

Chronic lung injury and impaired pulmonary function in a mouse model of acid ceramidase deficiency.

Author information

Institute of Medical Science, University of Toronto , Toronto, Ontario , Canada.
Research Unit for Rare Diseases, Department of Pediatrics and Adolescent Medicine, Charles University, First Faculty of Medicine , Prague , Czech Republic.
Institute of Pathology, Charles University, First Faculty of Medicine and General University Hospital , Prague , Czech Republic.
Department of Cardiology, Institute for Clinical and Experimental Medicine , Prague , Czech Republic.
Department of Physiology, University of Toronto , Toronto Ontario , Canada.
University Health Network , Toronto, Ontario , Canada.
Keenan Research Centre for Biomedical Science, Saint Michael's Hospital , Toronto, Ontario , Canada.
Laboratoire de Biochimie Métabolique, Institut Fédératif de Biologie, CHU Purpan, and INSERM UMR1037 CRCT, Université de Toulouse , Toulouse , France.
Department of Anesthesia, University of Toronto , Toronto, Ontario , Canada.
Departments of Pediatrics and Biochemistry, Medical College of Wisconsin , Milwaukee, Wisconsin.


Farber disease (FD) is a debilitating lysosomal storage disorder (LSD) caused by a deficiency of acid ceramidase (ACDase) activity due to mutations in the gene ASAH1. Patients with ACDase deficiency may develop a spectrum of clinical phenotypes. Severe cases of FD are frequently associated with neurological involvement, failure to thrive, and respiratory complications. Mice homozygous ( Asah1P361R/P361R) for an orthologous patient mutation in Asah1 recapitulate human FD. In this study, we show significant impairment in lung function, including low compliance and increased airway resistance in a mouse model of ACDase deficiency. Impaired lung mechanics in Farber mice resulted in decreased blood oxygenation and increased red blood cell production. Inflammatory cells were recruited to both perivascular and peribronchial areas of the lung. We observed large vacuolated foamy histiocytes that were full of storage material. An increase in vascular permeability led to protein leakage, edema, and impacted surfactant homeostasis in the lungs of Asah1P361R/P361R mice. Bronchial alveolar lavage fluid (BALF) extraction and analysis revealed accumulation of a highly turbid lipoprotein-like substance that was composed in part of surfactants, phospholipids, and ceramides. The phospholipid composition of BALF from Asah1P361R/P361R mice was severely altered, with an increase in both phosphatidylethanolamine (PE) and sphingomyelin (SM). Ceramides were also found at significantly higher levels in both BALF and lung tissue from Asah1P361R/P361R mice when compared with levels from wild-type animals. We demonstrate that a deficiency in ACDase leads to sphingolipid and phospholipid imbalance, chronic lung injury caused by significant inflammation, and increased vascular permeability, leading to impaired lung function.

[Available on 2019-03-01]

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