The effects of aging and exercise on lung mechanics, surfactant and alveolar macrophages
RAW Veldhuizen, LA McCaig, C Pape… - Experimental Lung …, 2019 - Taylor & Francis
RAW Veldhuizen, LA McCaig, C Pape, SE Gill
Experimental Lung Research, 2019•Taylor & FrancisPurpose: Advancing age leads to changes to the respiratory system associated with
increased susceptibility to lung diseases, and exercise may counteract this effect. To explore
the underlying processes, we investigated the effects of aging and exercise on lung
mechanics, alveolar macrophage function, and surfactant pools and activity, in mice. It was
hypothesized that aging would impact lung mechanics, macrophage polarization, and the
status of the surfactant system, and that these changes would be mitigated by exercise …
increased susceptibility to lung diseases, and exercise may counteract this effect. To explore
the underlying processes, we investigated the effects of aging and exercise on lung
mechanics, alveolar macrophage function, and surfactant pools and activity, in mice. It was
hypothesized that aging would impact lung mechanics, macrophage polarization, and the
status of the surfactant system, and that these changes would be mitigated by exercise …
Purpose
Advancing age leads to changes to the respiratory system associated with increased susceptibility to lung diseases, and exercise may counteract this effect. To explore the underlying processes, we investigated the effects of aging and exercise on lung mechanics, alveolar macrophage function, and surfactant pools and activity, in mice. It was hypothesized that aging would impact lung mechanics, macrophage polarization, and the status of the surfactant system, and that these changes would be mitigated by exercise. Methods
Male C57BL/6 mice were housed from 2-3 to 22 months, for the aged group, or until 4 months of age for young mice. Mice in both groups were randomized to voluntarily running exercise or to non-exercise, for a 2-month period. Mice were euthanized and lung mechanics were analyzed using a flexiVent ventilator. Subsequently, the lungs were lavaged to obtain pulmonary surfactant and alveolar macrophages. Pulmonary surfactant was analyzed for pool sizes and activity whereas alveolar macrophages were examined for response to pro and anti-inflammatory stimuli. Results
Changes in lung mechanics, such as increased compliance and decreased airway resistance, were associated with aging but were not affected by exercise. The quantity as well as the biophysical activity of the pulmonary surfactant system was unaffected by either aging or exercise. More alveolar macrophages were recovered from exercising aged mice compared to both the young and non-exercising groups. Macrophages in this aged exercise group were more responsive to an anti-inflammatory stimulus. Conclusions
Our data supports previous literature that suggest the development of emphysema-like alterations to lung mechanics with aging. This effect was independent of exercise. Our data also indicates that surfactant is unaffected by aging and exercise. Alveolar macrophage properties and numbers were affected by exercise in the aging lung and may represent the main, potentially beneficial, effect of exercise on the pulmonary system.