Deletion of a Csf1r enhancer selectively impacts CSF1R expression and development of tissue macrophage populations

Rocío Rojo; Anna Raper; Derya D. Ozdemir; Lucas Lefèvre; Kathleen Grabert; Evi Wollscheid-Lengeling; Barry Bradford; Melanie Caruso; Iveta Gažová; Alejandra Sánchez; Zofia M. Lisowski; Joana Alves; Irene Molina-González; Hayk Davtyan; Rebecca J. Lodge; James D. Glover; Robert Wallace; David A. D. Munro; Eyal David; Ido Amit; Véronique E. Miron; Josef Priller; Stephen J. Jenkins; Giles E. Hardingham; Mathew Blurton‐Jones; Neil A. Mabbott; Kim Summers; Peter Hohenstein; David Hume; Clare Pridans

doi:10.1038/s41467-019-11053-8

Deletion of a Csf1r enhancer selectively impacts CSF1R expression and development of tissue macrophage populations

Rocío Rojo(Roslin Institute), Anna Raper(Roslin Institute), Derya D. Ozdemir(Roslin Institute), Lucas Lefèvre(Roslin Institute), Kathleen Grabert(Roslin Institute), Evi Wollscheid-Lengeling(Roslin Institute), Barry Bradford(Roslin Institute), Melanie Caruso(Roslin Institute), Iveta Gažová(Roslin Institute), Alejandra Sánchez(Roslin Institute), Zofia M. Lisowski(Roslin Institute), Joana Alves(Roslin Institute), Irene Molina-González(MRC Centre for Reproductive Health), Hayk Davtyan(University of California, Irvine), Rebecca J. Lodge(Centre for Inflammation Research), James D. Glover(Roslin Institute), Robert Wallace(University of Edinburgh), David A. D. Munro(UK Dementia Research Institute), Eyal David(Weizmann Institute of Science), Ido Amit(Weizmann Institute of Science), Véronique E. Miron(MRC Centre for Reproductive Health), Josef Priller(UK Dementia Research Institute), Stephen J. Jenkins(Centre for Inflammation Research), Giles E. Hardingham(UK Dementia Research Institute), Mathew Blurton‐Jones(University of California, Irvine), Neil A. Mabbott(Roslin Institute), Kim Summers(Translational Research Institute), Peter Hohenstein(Roslin Institute), David Hume(Translational Research Institute), Clare Pridans(Centre for Inflammation Research)

Nature Communications

July 19, 2019

10.1038/s41467-019-11053-8

Cited by 379Open Access

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Abstract

Abstract The proliferation, differentiation and survival of mononuclear phagocytes depend on signals from the receptor for macrophage colony-stimulating factor, CSF1R. The mammalian Csf1r locus contains a highly conserved super-enhancer, the fms -intronic regulatory element (FIRE). Here we show that genomic deletion of FIRE in mice selectively impacts CSF1R expression and tissue macrophage development in specific tissues. Deletion of FIRE ablates macrophage development from murine embryonic stem cells. Csf1r ΔFIRE/ΔFIRE mice lack macrophages in the embryo, brain microglia and resident macrophages in the skin, kidney, heart and peritoneum. The homeostasis of other macrophage populations and monocytes is unaffected, but monocytes and their progenitors in bone marrow lack surface CSF1R. Finally, Csf1r ΔFIRE/ΔFIRE mice are healthy and fertile without the growth, neurological or developmental abnormalities reported in Csf1r −/− rodents. Csf1r ΔFIRE/ΔFIRE mice thus provide a model to explore the homeostatic, physiological and immunological functions of tissue-specific macrophage populations in adult animals.

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