Endogenous LXR signaling controls pulmonary surfactant homeostasis and prevents lung inflammation

Author:

Hernández-Hernández Irene,De La Rosa Juan V.,Martín-Rodríguez Patricia,Díaz-Sarmiento Mercedes,Recio Carlota,Guerra Borja,Fernández-Pérez Leandro,León Theresa E.,Torres Rosa,Font-Díaz Joan,Roig Angela,de Mora Fernando,Boscá Lisardo,Díaz Mario,Valledor Annabel F.,Castrillo AntonioORCID,Tabraue CarlosORCID

Abstract

AbstractLung type 2 pneumocytes (T2Ps) and alveolar macrophages (AMs) play crucial roles in the synthesis, recycling and catabolism of surfactant material, a lipid/protein fluid essential for respiratory function. The liver X receptors (LXR), LXRα and LXRβ, are transcription factors important for lipid metabolism and inflammation. While LXR activation exerts anti-inflammatory actions in lung injury caused by lipopolysaccharide (LPS) and other inflammatory stimuli, the full extent of the endogenous LXR transcriptional activity in pulmonary homeostasis is incompletely understood. Here, using mice lacking LXRα and LXRβ as experimental models, we describe how the loss of LXRs causes pulmonary lipidosis, pulmonary congestion, fibrosis and chronic inflammation due to defective de novo synthesis and recycling of surfactant material by T2Ps and defective phagocytosis and degradation of excess surfactant by AMs. LXR-deficient T2Ps display aberrant lamellar bodies and decreased expression of genes encoding for surfactant proteins and enzymes involved in cholesterol, fatty acids, and phospholipid metabolism. Moreover, LXR-deficient lungs accumulate foamy AMs with aberrant expression of cholesterol and phospholipid metabolism genes. Using a house dust mite aeroallergen-induced mouse model of asthma, we show that LXR-deficient mice exhibit a more pronounced airway reactivity to a methacholine challenge and greater pulmonary infiltration, indicating an altered physiology of LXR-deficient lungs. Moreover, pretreatment with LXR agonists ameliorated the airway reactivity in WT mice sensitized to house dust mite extracts, confirming that LXR plays an important role in lung physiology and suggesting that agonist pharmacology could be used to treat inflammatory lung diseases. Graphical Abstract

Funder

Universidad de las Palmas de Gran Canaria

Publisher

Springer Science and Business Media LLC

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