Abstract
BackgroundAlveolar epithelial cell dysfunction plays an important role in the pathogenesis of idiopathic pulmonary fibrosis (IPF), but remains incompletely understood. Some monogenic forms of pulmonary fibrosis are associated with expression of mutant surfactant protein C (SFTPC). The commonest pathogenic mutant, I73T, mislocalises to the alveolar epithelial cell plasma membrane and displays a toxic gain of function. Because the mechanisms explaining the link between this mutant and IPF are incompletely understood, we sought to interrogate SFTPC trafficking in health and disease to understand the functional significance of SFTPC-I73T relocalisation.MethodsWe performed mechanistic analysis of SFTPC trafficking in a cell model that reproduces the in vivo phenotype and validated findings in human primary alveolar organoids.ResultsWe show that wild-type SFTPC takes an unexpected indirect trafficking route via the plasma membrane and undergoes the first of multiple cleavage events before reaching the multivesicular body (MVB) for further processing. SFTPC-I73T takes this same route, but its progress is retarded both at the cell surface and due to failure of trafficking into the MVB. Unable to undergo onward trafficking, it is recycled to the plasma membrane as a partially cleaved intermediate.ConclusionThese data show for the first time that all SFTPC transits the cell surface during normal trafficking, and the I73T mutation accumulates at the cell surface through both retarded trafficking and active recycling. This understanding of normal SFTPC trafficking and how the I73T mutant disturbs it provides novel insight into SFTPC biology in health and disease, and in the contribution of the SFTPC mutant to IPF development.
Highlights
In idiopathic pulmonary fibrosis (IPF), pathological scarring of the lung impairs gas exchange to cause premature death [1]
We set out to understand the mechanisms by which surfactant protein C (SFTPC)-I73T mistraffics to provide insight into its role in Familial pulmonary fibrosis (FPF)
We observed that residue I73 of SFTPC, located within the extracellular linker region of the proprotein, is key to trafficking as its mutation results in impaired progression to multivesicular bodies (MVBs) and unproductive SFTPC recycling between the cell surface and early endosomes
Summary
In idiopathic pulmonary fibrosis (IPF), pathological scarring of the lung impairs gas exchange to cause premature death [1]. Autosomal dominant mutations in surfactant protein C (SFTPC), which is expressed exclusively in AT2 cells, cause FPF. Expression of the commonest pathogenic variant, SFTPC-I73T [6], can manifest as FPF in childhood or in adults [6] [7]. Some of these variants of SFTPC do not traffic beyond the endoplasmic reticulum (ER) because they are unable to fold correctly. This results in “ER stress” [8], which is seen in the lungs in FPF and sporadic IPF [9]. SFTPC-I73T does not cause ER stress, but instead has been reported to mislocalise to the cell surface by unknown mechanisms [10]
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