Apolipoprotein E controls Dectin-1-dependent development of monocyte-derived alveolar macrophages upon pulmonary β-glucan-induced inflammatory adaptation.
Hannah TheobaldDavid Alejandro BejaranoN KatzmarskiJ HaubJ Schulte-SchreppingJ YuKevin BasslerA L AmentC Osei-SarpongF PiattiniL VornholzW T'JonckA H GyörfiH HayerX YuS SheoranA Al JawaznehS ChakarovK HaendlerGordon D BrownD L WilliamsL BosurgiJ H W DistlerFlorent GinhouxJuergen RulandMarc BeyerMelanie GreterCalum C BainA I Vazquez-ArmendarizM KopfJoachim L SchultzeAndreas SchlitzerPublished in: Nature immunology (2024)
The lung is constantly exposed to the outside world and optimal adaptation of immune responses is crucial for efficient pathogen clearance. However, mechanisms that lead to lung-associated macrophages' functional and developmental adaptation remain elusive. To reveal such mechanisms, we developed a reductionist model of environmental intranasal β-glucan exposure, allowing for the detailed interrogation of molecular mechanisms of pulmonary macrophage adaptation. Employing single-cell transcriptomics, high-dimensional imaging and flow cytometric characterization paired with in vivo and ex vivo challenge models, we reveal that pulmonary low-grade inflammation results in the development of apolipoprotein E (ApoE)-dependent monocyte-derived alveolar macrophages (ApoE + CD11b + AMs). ApoE + CD11b + AMs expressed high levels of CD11b, ApoE, Gpnmb and Ccl6, were glycolytic, highly phagocytic and produced large amounts of interleukin-6 upon restimulation. Functional differences were cell intrinsic, and myeloid cell-specific ApoE ablation inhibited Ly6c + monocyte to ApoE + CD11b + AM differentiation dependent on macrophage colony-stimulating factor secretion, promoting ApoE + CD11b + AM cell death and thus impeding ApoE + CD11b + AM maintenance. In vivo, β-glucan-elicited ApoE + CD11b + AMs limited the bacterial burden of Legionella pneumophilia after infection and improved the disease outcome in vivo and ex vivo in a murine lung fibrosis model. Collectively these data identify ApoE + CD11b + AMs generated upon environmental cues, under the control of ApoE signaling, as an essential determinant for lung adaptation enhancing tissue resilience.
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