CNS macrophages differentially rely on an intronic Csf1r enhancer for their development

David A.D. Munro; Barry M. Bradford; Samanta A. Mariani; David W. Hampton; Chris S. Vink; Siddharthan Chandran; David A. Hume; Clare Pridans; Josef Priller

doi:10.1242/dev.194449

CNS macrophages differentially rely on an intronic Csf1r enhancer for their development

David A.D. Munro, Barry M. Bradford, Samanta A. Mariani, David W. Hampton, Chris S. Vink, Siddharthan Chandran, David A. Hume, Clare Pridans, Josef Priller^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

38 Citations (Scopus)

Abstract

The central nervous system hosts parenchymal macrophages, known as microglia, and non-parenchymal macrophages, collectively termed border-associated macrophages (BAMs). Microglia, but not BAMs, were reported to be absent in mice lacking a conserved Csf1r enhancer: the fms-intronic regulatory element (FIRE). However, it is unknown whether FIRE deficiency also impacts BAM arrival and/or maintenance. Here, we show that macrophages in the ventricular system of the brain, including Kolmer's epiplexus macrophages, are absent in Csf1r^ΔFIRE/Δ^FIRE mice. Stromal choroid plexus BAMs are also considerably reduced. During normal development, we demonstrate that intracerebroventricular macrophages arrive from embryonic day 10.5, and can traverse ventricular walls in embryonic slice cultures. In Csf1r^ΔFIRE/Δ^FIRE embryos, the arrival of both primitive microglia and intracerebroventricular macrophages was eliminated, whereas the arrival of cephalic mesenchyme and stromal choroid plexus BAMs was only partially restricted. Our results provide new insights into the development and regulation of different CNS macrophage populations.

Original language	English
Article number	dev194449
Number of pages	9
Journal	Development (Cambridge)
Volume	147
Issue number	23
DOIs	https://doi.org/10.1242/dev.194449
Publication status	Published - 2020
Externally published	Yes

Keywords

Cerebral ventricles
Cerebrospinal fluid
CNS-associated macrophages
Kolmer cells
Myeloid cells
Phagocytes

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10.1242/dev.194449

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@article{988a3d657ab34ed79a8bbc22abbf338a,

title = "CNS macrophages differentially rely on an intronic Csf1r enhancer for their development",

abstract = "The central nervous system hosts parenchymal macrophages, known as microglia, and non-parenchymal macrophages, collectively termed border-associated macrophages (BAMs). Microglia, but not BAMs, were reported to be absent in mice lacking a conserved Csf1r enhancer: the fms-intronic regulatory element (FIRE). However, it is unknown whether FIRE deficiency also impacts BAM arrival and/or maintenance. Here, we show that macrophages in the ventricular system of the brain, including Kolmer's epiplexus macrophages, are absent in Csf1rΔFIRE/ΔFIRE mice. Stromal choroid plexus BAMs are also considerably reduced. During normal development, we demonstrate that intracerebroventricular macrophages arrive from embryonic day 10.5, and can traverse ventricular walls in embryonic slice cultures. In Csf1rΔFIRE/ΔFIRE embryos, the arrival of both primitive microglia and intracerebroventricular macrophages was eliminated, whereas the arrival of cephalic mesenchyme and stromal choroid plexus BAMs was only partially restricted. Our results provide new insights into the development and regulation of different CNS macrophage populations.",

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author = "Munro, {David A.D.} and Bradford, {Barry M.} and Mariani, {Samanta A.} and Hampton, {David W.} and Vink, {Chris S.} and Siddharthan Chandran and Hume, {David A.} and Clare Pridans and Josef Priller",

year = "2020",

doi = "10.1242/dev.194449",

language = "English",

volume = "147",

journal = "Development (Cambridge)",

issn = "0950-1991",

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T1 - CNS macrophages differentially rely on an intronic Csf1r enhancer for their development

AU - Munro, David A.D.

AU - Bradford, Barry M.

AU - Mariani, Samanta A.

AU - Hampton, David W.

AU - Vink, Chris S.

AU - Chandran, Siddharthan

AU - Hume, David A.

AU - Pridans, Clare

AU - Priller, Josef

PY - 2020

Y1 - 2020

N2 - The central nervous system hosts parenchymal macrophages, known as microglia, and non-parenchymal macrophages, collectively termed border-associated macrophages (BAMs). Microglia, but not BAMs, were reported to be absent in mice lacking a conserved Csf1r enhancer: the fms-intronic regulatory element (FIRE). However, it is unknown whether FIRE deficiency also impacts BAM arrival and/or maintenance. Here, we show that macrophages in the ventricular system of the brain, including Kolmer's epiplexus macrophages, are absent in Csf1rΔFIRE/ΔFIRE mice. Stromal choroid plexus BAMs are also considerably reduced. During normal development, we demonstrate that intracerebroventricular macrophages arrive from embryonic day 10.5, and can traverse ventricular walls in embryonic slice cultures. In Csf1rΔFIRE/ΔFIRE embryos, the arrival of both primitive microglia and intracerebroventricular macrophages was eliminated, whereas the arrival of cephalic mesenchyme and stromal choroid plexus BAMs was only partially restricted. Our results provide new insights into the development and regulation of different CNS macrophage populations.

AB - The central nervous system hosts parenchymal macrophages, known as microglia, and non-parenchymal macrophages, collectively termed border-associated macrophages (BAMs). Microglia, but not BAMs, were reported to be absent in mice lacking a conserved Csf1r enhancer: the fms-intronic regulatory element (FIRE). However, it is unknown whether FIRE deficiency also impacts BAM arrival and/or maintenance. Here, we show that macrophages in the ventricular system of the brain, including Kolmer's epiplexus macrophages, are absent in Csf1rΔFIRE/ΔFIRE mice. Stromal choroid plexus BAMs are also considerably reduced. During normal development, we demonstrate that intracerebroventricular macrophages arrive from embryonic day 10.5, and can traverse ventricular walls in embryonic slice cultures. In Csf1rΔFIRE/ΔFIRE embryos, the arrival of both primitive microglia and intracerebroventricular macrophages was eliminated, whereas the arrival of cephalic mesenchyme and stromal choroid plexus BAMs was only partially restricted. Our results provide new insights into the development and regulation of different CNS macrophage populations.

KW - Cerebral ventricles

KW - Cerebrospinal fluid

KW - CNS-associated macrophages

KW - Kolmer cells

KW - Myeloid cells

KW - Phagocytes

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U2 - 10.1242/dev.194449

DO - 10.1242/dev.194449

M3 - Article

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AN - SCOPUS:85098533941

SN - 0950-1991

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JO - Development (Cambridge)

JF - Development (Cambridge)

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M1 - dev194449

ER -

CNS macrophages differentially rely on an intronic Csf1r enhancer for their development

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Keywords

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