Lung bone marrow-derived hematopoietic progenitor cells enhance pulmonary fibrosis.

ABSTRACT

RATIONALE Bone marrow (BM)-derived cells have been implicated in pulmonary fibrosis. However, their precise role in pathogenesis is incompletely understood. OBJECTIVES: To elucidate roles of BM-derived cells in bleomycin-induced pulmonary fibrosis, and clarify their potential relationship to lung hematopoietic progenitor cells (LHPCs). METHODS: GFP BM-chimera mice treated with or without bleomycin were used to assess the BM-derived cells. MEASUREMENTS AND MAIN RESULTS: GFP(+) cells in the chimera lung were found to be comprised of two distinct phenotypes GFP(hi) and GFP(low) cells. The GFP(hi), but not GFP(low), population was significantly increased after bleomycin treatment. Flow-cytometric analysis and quantitative real-time polymerase chain reaction revealed that GFP(hi) cells exhibited phenotypic characteristics of CD11c(+) dendritic cells and macrophages. GFP(hi) cell conditioned media were chemotactic for fibroblasts obtained from fibrotic but not normal lung in vitro. Moreover, adoptive transfer of GFP(hi) cells exacerbated fibrosis in recipient mice, similar to that seen on adoptive transfer of BM-derived CD11c(+) cells from donor bleomycin-treated mice. Next, we evaluated the potential of LHPCs as the source of GFP(hi) cells. Isolation of LHPCs by flow sorting revealed enrichment in cKit(+)/Sca1(-)/Lin(-) cells, most of which were GFP(+) indicating their BM origin. The number of LHPCs increased rapidly after bleomycin treatment. Furthermore, stem cell factor induced LHPC proliferation, whereas granulocyte-macrophage-colony stimulating factor induced differentiation to GFP(hi) cells. CONCLUSIONS: BM-derived LHPCs with a novel phenotype could differentiate into GFP(hi) cells, which enhanced pulmonary fibrosis. Targeting this mobilized LHPCs might represent a novel therapeutic approach in chronic fibrotic lung diseases.