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Hyperoxia impairs intraflagellar transport and causes dysregulated metabolism with resultant decreased cilia length.

Daniella TeapeAbigail PetersonNagib AhsanKimberlyn EllisNicholas CorreiaRyan LuoKaty HegartyHongwei YaoPhyllis A Dennery
Published in: American journal of physiology. Lung cellular and molecular physiology (2023)
Supplemental oxygen is a lifesaving measure in infants born premature to facilitate oxygenation. Unfortunately, it may lead to alveolar simplification and loss of proximal airway epithelial cilia. Little is known about the mechanism by which hyperoxia causes ciliary dysfunction in the proximal respiratory tract. We hypothesized that hyperoxia causes intraflagellar transport (IFT) dysfunction with resultant decreased cilia length. Differentiated basal human airway epithelial cells (HAEC) were exposed to hyperoxia or air for up to 48 h. Neonatal mice (<12 h old) were exposed to hyperoxia for 72 h and recovered in room air until postnatal day (PND) 60. Cilia length was measured from scanning electron microscopy images using a MATLAB-derived program. Proteomics and metabolomics were carried out in cells after hyperoxia. After hyperoxia, there was a significant time-dependent reduction in cilia length after hyperoxia in HAEC. Proteomic analysis showed decreased abundance of multiple proteins related to IFT including dynein motor proteins. In neonatal mice exposed to hyperoxia, there was a significant decrease in acetylated α tubulin at PND10 followed by recovery to normal levels at PND60. In HAEC, hyperoxia decreased the abundance of multiple proteins associated with complex I of the electron transport chain. In HAEC, hyperoxia increased levels of malate, fumarate, and citrate, and reduced the ATP/ADP ratio at 24 h with a subsequent increase at 36 h. Exposure to hyperoxia reduced cilia length, and this was associated with aberrant IFT protein expression and dysregulated metabolism. This suggests that hyperoxic exposure leads to aberrant IFT protein expression in the respiratory epithelium resulting in shortened cilia.
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