Loss of Regulator of telomere elongation helicase (Rtel1) impairs alveolar epithelial cell progenitor function but does not exacerbate experimental fibrosis

Inherited loss-of-function mutations in the replication-associated helicase Regulator of telomere elongation helicase ( RTEL1 ) are among the most frequent monogenic causes of familial pulmonary fibrosis (FPF), but the specific functional role of RTEL1 in lung development, homeostasis, and injury-repair has not been determined. Using single-cell RNA-sequencing to define the cellular diversity and molecular programs following intratracheal bleomycin injury in mice, we observed that Rtel1 was most highly expressed in the lung epithelium, and its expression was reduced in PF epithelial cells compared to nonfibrotic controls. While global deletion of Rtel1 leads to embryonic lethality, constitutive deletion of Rtel1 in the lung epithelium (Rtel ^Δepi ) led to normal lung structure and architecture. Rtel1 ^Δepi mice exhibited accelerated telomere attrition and impaired AEC progenitor potential ex-vivo . Despite decreased AEC progenitor function, no differences in lung fibrosis were observed in Rtel ^Δepi mice compared to controls following single-dose or repetitive intratracheal bleomycin. Together, these data implicate RTEL1 as a regulator of AEC progenitor function but this level of progenitor dysfunction is not alone sufficient to cause or exacerbate experimental lung fibrosis.