The Pathology of Bleomycin-Induced Fibrosis Is Associated with Loss of Resident Lung Mesenchymal Stem Cells That Regulate Effector T-cell Proliferation†‡§

Tissue resident mesenchymal stem cells (MSC) are important regulators of tissue repair or regeneration, fibrosis, inflammation, angiogenesis and tumor formation. Here we define a population of resident lung mesenchymal stem cells (luMSC) that function to regulate the severity of bleomycin injury via modulation of the T-cell response. Bleomycin induced loss of these endogenous luMSC and elicited fibrosis (PF), inflammation and pulmonary arterial hypertension (PAH). Replacement of resident stem cells by administration of isolated luMSC attenuated the bleomycin-associated pathology and mitigated the development of PAH. In addition, luMSC modulated a decrease in numbers of lymphocytes and granulocytes in bronchoalveolar fluid and demonstrated an inhibition of effector T cell proliferation in vitro. Global gene expression analysis indicated that the luMSC are a unique stromal population differing from lung fibroblasts in terms of proinflammatory mediators and pro-fibrotic pathways. Our results demonstrate that luMSCs function to protect lung integrity following injury however when endogenous MSC are lost this function is compromised illustrating the importance of this novel population during lung injury. The definition of this population in vivo in both murine and human pulmonary tissue facilitates the development of a therapeutic strategy directed at the rescue of endogenous cells to facilitate lung repair during injury.