Abstract
Patients with pulmonary alveolar proteinosis (PAP) display impaired surfactant clearance, foamy, lipid-filled alveolar macrophages, and increased cholesterol metabolites within the lung. Neutralizing autoantibodies to granulocyte-macrophage colony-stimulating factor (GM-CSF) are also present, resulting in virtual GM-CSF deficiency. We investigated ABCG1 and ABCA1 expression in alveolar macrophages of PAP patients and GM-CSF knockout (KO) mice, which exhibit PAP-like pulmonary pathology and increased pulmonary cholesterol. Alveolar macrophages from both sources displayed a striking similarity in transporter gene dysregulation, consisting of deficient ABCG1 accompanied by highly increased ABCA1. Peroxisome proliferator-activated receptor gamma (PPARgamma), a known regulator of both transporters, was deficient, as reported previously. In contrast, the liver X receptor alpha, which also upregulates both transporters, was highly increased. GM-CSF treatment increased ABCG1 expression in macrophages in vitro and in PAP patients in vivo. Overexpression of PPARgamma by lentivirus-PPARgamma transduction of primary alveolar macrophages, or activation by rosiglitazone, also increased ABCG1 expression. These results suggest that ABCG1 deficiency in PAP and GM-CSF KO alveolar macrophages is attributable to the absence of a GM-CSF-mediated PPARgamma pathway. These findings document the existence of ABCG1 deficiency in human lung disease and highlight a critical role for ABCG1 in surfactant homeostasis.
Highlights
Patients with pulmonary alveolar proteinosis (PAP) display impaired surfactant clearance, foamy, lipidfilled alveolar macrophages, and increased cholesterol metabolites within the lung
We have shown that alveolar macrophages from PAP patients are severely deficient in peroxisome proliferatoractivated receptor g (PPARg), a key regulator of lipid metabolism [3]
Our results indicate that alveolar macrophages from PAP patients and GM-CSF KO mice display a striking similarity of transporter dysregulation characterized by deficient ABCG1 and increased ABCA1
Summary
Patients with pulmonary alveolar proteinosis (PAP) display impaired surfactant clearance, foamy, lipidfilled alveolar macrophages, and increased cholesterol metabolites within the lung. We investigated ABCG1 and ABCA1 expression in alveolar macrophages of PAP patients and GM-CSF knockout (KO) mice, which exhibit PAP-like pulmonary pathology and increased pulmonary cholesterol. Alveolar macrophages from both sources displayed a striking similarity in transporter gene dysregulation, consisting of deficient ABCG1 accompanied by highly increased ABCA1. Overexpression of PPARg by lentivirus-PPARg transduction of primary alveolar macrophages, or activation by rosiglitazone, increased ABCG1 expression. These results suggest that ABCG1 deficiency in PAP and GM-CSF KO alveolar macrophages is attributable to the absence of a GM-CSFmediated PPARg pathway.
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