Role of SFTPC in Pathogenesis of Interstitial Lung Disease
Cincinnati Childrens Hosp Med Ctr, Cincinnati OH
Investigators
Linked publications & trials
Abstract
6. PROJECT SUMMARY/ABSTRACT Idiopathic pulmonary fibrosis (IPF) is a chronic, progressive interstitial lung disease (ILD) with no effective treatment options and a mean survival of 3 years after diagnosis. The natural history of the disease is poorly understood because of the lack of an appropriate animal model. Familial forms of the disease account for less than 5% of total IPF cases and are characterized by autosomal dominant inheritance with variable penetrance related to the influence of both genetic modifiers and environmental factors. Mutations in the gene (SFTPC) encoding surfactant protein C (SP-C exon4 and SP-CL188Q) provide an unique opportunity to identify molecular pathways underlying familial ILD. Our preliminary studies in cell culture have identified unique molecular complexes involved in the detection and rapid degradation of mutant SP-C; further, we have shown that cells expressing mutant SP-C and infected with respiratory syncticial virus accumulate misfolded SP-C and are much more susceptible to viral-induced cell death than cells expressing the wild type protein. These key in vitro findings lead to the central hypothesis that environmental stress superimposed on a SFTPC mutation leads to accumulation of misfolded, cytotoxic SP-C that, in turn, results in type II epithelial cell injury/death, which is the inciting event in SFTPC-associated familial ILD. Three specific aims are proposed to test this hypothesis: Specific aim 1 will test the hypothesis that ERAD (a cytoprotective pathway) rapidly identifies and degrades mutant SP-C preventing intracellular accumulation, type II epithelial cell apoptosis, and progression to ILD. Specific aim 2 will test the hypothesis that viral infection superimposed on an Sftpc mutation leads to accumulation of cytotoxic SP-C and type II epithelial cell apoptosis that, in turn, triggers the onset of ILD or accelerates pathogenesis. Specific aim 3 will test the hypothesis that inhibiting accumulation of mutant SP-C in vivo will prevent progression to ILD. Studies proposed in this application will generate the first mouse model of familial IPF and determine if an environmental insult is absolutely required for onset of the disease; further, this model will permit testing of the biologic relevance of findings from in vitro studies, in particular the hypothesis that accumulation of cytotoxic SP-C drives progression to ILD. The mouse model will also facilitate translational studies with the long-term goals of (1) testing the feasibility of reversing the fibrogenic process by transplantation of adult progenitor cells, (2) identifying new drugs that enhance clearance of mutant SP-C (and, potentially, other disease-causing mutant proteins) and prevent ILD in affected mice, and (3) identifying candidate genes for early detection of disease in asymptomatic patients. Thus, the overall, long term-goal of this proposal is to identify novel diagnostic and treatment strategies for a disease in which the current standard of care is palliative.
View original record on NIH RePORTER →