Abstract
Pulmonary alveolar proteinosis (PAP) is a severe respiratory disease characterized by dyspnea caused by accumulation of surfactant protein. Dysfunction of alveolar macrophages (AMs), which regulate the homeostasis of surfactant protein, leads to the development of PAP; for example, in mice lacking BTB and CNC homology 2 (Bach2). However, how Bach2 helps prevent PAP is unknown, and the cell-specific effects of Bach2 are undefined. Using mice lacking Bach2 in specific cell types, we found that the PAP phenotype of Bach2-deficient mice is due to Bach2 deficiency in more than two types of immune cells. Depletion of hyperactivated T cells in Bach2-deficient mice restored normal function of AMs and ameliorated PAP. We also found that, in Bach2-deficient mice, hyperactivated T cells induced gene expression patterns that are specific to other tissue-resident macrophages and dendritic cells. Moreover, Bach2-deficient AMs exhibited a reduction in cell cycle progression. IFN-γ released from T cells induced Bach2 expression in AMs, in which Bach2 then bound to regulatory regions of inflammation-associated genes in myeloid cells. Of note, in AMs, Bach2 restricted aberrant responses to excessive T cell-induced inflammation, whereas, in T cells, Bach2 puts a brake on T cell activation. Moreover, Bach2 stimulated the expression of multiple histone genes in AMs, suggesting a role of Bach2 in proper histone expression. We conclude that Bach2 is critical for the maintenance of AM identity and self-renewal in inflammatory environments. Treatments targeting T cells may offer new therapeutic strategies for managing secondary PAP.
Highlights
To clarify which cells are primarily responsible for the altered function of alveolar macrophages (AMs) and the etiology of Pulmonary alveolar proteinosis (PAP) observed in BTB and CNC homology 2 (Bach2)-deficient mice, we analyzed a series of genetically modified mice
At 13 weeks of age, there was no sign of PAP in their lungs, and the surface expression pattern of AMs was normal in Bach2/Rag2 double-deficient mice (F4/80int-hi, CD11bint-hi, SiglecFhi, CD11chi) (Fig. 1, A and B)
AMs in control Bach2Ϫ/Ϫ/Rag2ϩ/Ϫ mice showed an abnormal pattern of surface marker expression (F4/80int, CD11bhi, SiglecFint, CD11chi), showing that T, B, and/or natural killer T (NKT) cells were essential for the onset of PAP in Bach2-deficient mice
Summary
Dysfunction of alveolar macrophages (AMs), which regulate the homeostasis of surfactant protein, leads to the development of PAP; for example, in mice lacking BTB and CNC homology 2 (Bach). How Bach helps prevent PAP is unknown, and the cell-specific effects of Bach are undefined. Depletion of hyperactivated T cells in Bach2-deficient mice restored normal function of AMs and ameliorated PAP. In Bach2-deficient mice, hyperactivated T cells induced gene expression patterns that are specific to other tissue-resident macrophages and dendritic cells. Bach2-deficient AMs exhibited a reduction in cell cycle progression. IFN-␥ released from T cells induced Bach expression in AMs, in which Bach bound to regulatory regions of inflammationassociated genes in myeloid cells. Additional initiative supports were from the Uehara Foundation, Takeda Foundation, and Astellas Foundation for Research on Metabolic Disorders. Treatments targeting T cells may offer new therapeutic strategies for managing secondary PAP
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