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IFNγ and GM-CSF control complementary differentiation programs in the monocyte-to-phagocyte transition during neuroinflammation.

Ana AmorimDonatella De FeoEkaterina FriebelFlorian IngelfingerCyrill Dimitri AnderfuhrenSinduya KrishnarajahMyrto AndreadouChristina A WelshZhaoyuan LiuFlorent GinhouxMelanie GreterBurkhard Becher
Published in: Nature immunology (2022)
During inflammation, Ly6C hi monocytes are rapidly mobilized from the bone marrow (BM) and are recruited into inflamed tissues, where they undergo monocyte-to-phagocyte transition (MTPT). The in vivo developmental trajectories of the MTPT and the contribution of individual cytokines to this process remain unclear. Here, we used a murine model of neuroinflammation to investigate how granulocyte-macrophage colony-stimulating factor (GM-CSF) and interferon-γ (IFNγ), two type 1 cytokines, controlled MTPT. Using genetic fate mapping, gene targeting and high-dimensional single-cell multiomics analyses, we found that IFNγ was essential for the gradual acquisition of a mature inflammatory phagocyte phenotype in Ly6C hi monocytes, while GM-CSF was required to license interleukin-1β (IL-1β) production, phagocytosis and oxidative burst. These results suggest that the proinflammatory cytokine environment guided MTPT trajectories in the inflamed central nervous system (CNS) and indicated that GM-CSF was the most prominent target for the disarming of monocyte progenies during neuroinflammation.
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