SUMMARY

Chronic lung disease has been attributed to stem cell aging and/or exhaustion. To address this issue, we investigated the lifespan of tracheobronchial tissue stem cells (TSC) over time and in response to repeated injury. Chromatin and nucleotide labeling studies in mice indicated that: 1) injury activated a subset of the TSC pool and that this process conserved TSC over time; and 2) activated TSC were predisposed to further proliferation and this activated state lead to terminal differentiation. Analysis of human TSC and clonal isolates indicated that repeated TSC proliferation led to telomere shortening and analysis of TSC from Dyskeratosis Congenita donors indicated that mutations in telomere biology genes accelerated TSC depletion. RNAseq and functional studies indicated that human TSC terminated as a secretory committed cell. These data support a model in which a repeated epithelial injury depletes the TSC pool and initiates the abnormal repair associated with chronic lung disease.