High fat diet (HFD) decreases the lifespan of mice, and is a risk factor for several human diseases. Here, we investigated the effects of a HFD on lung epithelial and stem cells and its interaction with aging. Young and old mice were fed with either a standard diet (SD) or a HFD then their trachea and lung were examined for histological changes, inflammation, and mitochondrial function. Their stem cell function was examined using the in vitro organoid/colony forming efficiency (CFE) assay. Aging reduced the number of tracheal basal and alveolar type-2 (AT2) cells. HFD significantly increased the number of AT2 cells. Aging also caused a significant increase in lung inflammation, and HFD caused a similar increase, in young mice. Aging reduced mitochondrial mass and function, and increased reactive oxygen species. In young mice, HFD caused mitochondrial changes similar to the aging-induced changes. Organoid culture of tracheal and lung epithelial cells collected from both young and old HFD-fed mice showed higher CFE compared to SD-fed mice. Switching the HFD to low calorie/fat diet (LCD) efficiently reversed several of the HFD-induced effects. Thus, HFD induces several histological, inflammatory, and functional changes in the lung, and exacerbates the aging-induced lung inflammation and mitochondrial deterioration. LCD can reverse many of the HFD-induced effects.
Keywords: Aging; Alveolar cells; Calorie restriction; High fat diet; Lung stem cells; Mitochondria.
Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.