Long-lived self-renewing bone marrow-derived macrophages displace embryo-derived cells to inhabit adult serous cavities

Calum C. Bain; Catherine A. Hawley; Hannah Garner; Charlotte L. Scott; Anika Schridde; Nicholas J. Steers; Matthias Mack; Anagha Joshi; Martin Guilliams; Allan Mc I Mowat; Frederic Geissmann; Stephen J. Jenkins

doi:10.1038/ncomms11852

Long-lived self-renewing bone marrow-derived macrophages displace embryo-derived cells to inhabit adult serous cavities

Calum C. Bain, Catherine A. Hawley, Hannah Garner, Charlotte L. Scott, Anika Schridde, Nicholas J. Steers, Matthias Mack, Anagha Joshi, Martin Guilliams, Allan Mc I Mowat, Frederic Geissmann, Stephen J. Jenkins^*

^*Corresponding author for this work

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

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Abstract

Peritoneal macrophages are one of the most studied macrophage populations in the body, yet the composition, developmental origin and mechanisms governing the maintenance of this compartment are controversial. Here we show resident F4/80 ^hi GATA6 ⁺ macrophages are long-lived, undergo non-stochastic self-renewal and retain cells of embryonic origin for at least 4 months in mice. However, Ly6C ⁺ monocytes constitutively enter the peritoneal cavity in a CCR2-dependent manner, where they mature into short-lived F4/80^lo MHCII⁺ cells that act, in part, as precursors of F4/80 ^hi GATA6 + macrophages. Notably, monocyte-derived F4/80 hi macrophages eventually displace the embryonic population with age in a process that is highly gender dependent and not due to proliferative exhaustion of the incumbent embryonic population, despite the greater proliferative activity of newly recruited cells. Furthermore, although monocyte-derived cells acquire key characteristics of the embryonic population, expression of Tim4 was impaired, leading to cumulative changes in the population with age.

Original language	English
Article number	11852
Journal	Nature Communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms11852
Publication status	Published - 13 Jun 2016

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Long-lived self-renewing bone_BAIN_Accepted5May2016_GOLD VoRFinal published version, 1.28 MBLicence: CC BY

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Bain, C. C., Hawley, C. A., Garner, H., Scott, C. L., Schridde, A., Steers, N. J., Mack, M., Joshi, A., Guilliams, M., Mowat, A. M. I., Geissmann, F., & Jenkins, S. J. (2016). Long-lived self-renewing bone marrow-derived macrophages displace embryo-derived cells to inhabit adult serous cavities. Nature Communications, 7, Article 11852. https://doi.org/10.1038/ncomms11852

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title = "Long-lived self-renewing bone marrow-derived macrophages displace embryo-derived cells to inhabit adult serous cavities",

abstract = "Peritoneal macrophages are one of the most studied macrophage populations in the body, yet the composition, developmental origin and mechanisms governing the maintenance of this compartment are controversial. Here we show resident F4/80 hi GATA6 + macrophages are long-lived, undergo non-stochastic self-renewal and retain cells of embryonic origin for at least 4 months in mice. However, Ly6C + monocytes constitutively enter the peritoneal cavity in a CCR2-dependent manner, where they mature into short-lived F4/80lo MHCII+ cells that act, in part, as precursors of F4/80 hi GATA6 + macrophages. Notably, monocyte-derived F4/80 hi macrophages eventually displace the embryonic population with age in a process that is highly gender dependent and not due to proliferative exhaustion of the incumbent embryonic population, despite the greater proliferative activity of newly recruited cells. Furthermore, although monocyte-derived cells acquire key characteristics of the embryonic population, expression of Tim4 was impaired, leading to cumulative changes in the population with age.",

author = "Bain, {Calum C.} and Hawley, {Catherine A.} and Hannah Garner and Scott, {Charlotte L.} and Anika Schridde and Steers, {Nicholas J.} and Matthias Mack and Anagha Joshi and Martin Guilliams and Mowat, {Allan Mc I} and Frederic Geissmann and Jenkins, {Stephen J.}",

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AU - Bain, Calum C.

AU - Hawley, Catherine A.

AU - Garner, Hannah

AU - Scott, Charlotte L.

AU - Schridde, Anika

AU - Steers, Nicholas J.

AU - Mack, Matthias

AU - Joshi, Anagha

AU - Guilliams, Martin

AU - Mowat, Allan Mc I

AU - Geissmann, Frederic

AU - Jenkins, Stephen J.

PY - 2016/6/13

Y1 - 2016/6/13

N2 - Peritoneal macrophages are one of the most studied macrophage populations in the body, yet the composition, developmental origin and mechanisms governing the maintenance of this compartment are controversial. Here we show resident F4/80 hi GATA6 + macrophages are long-lived, undergo non-stochastic self-renewal and retain cells of embryonic origin for at least 4 months in mice. However, Ly6C + monocytes constitutively enter the peritoneal cavity in a CCR2-dependent manner, where they mature into short-lived F4/80lo MHCII+ cells that act, in part, as precursors of F4/80 hi GATA6 + macrophages. Notably, monocyte-derived F4/80 hi macrophages eventually displace the embryonic population with age in a process that is highly gender dependent and not due to proliferative exhaustion of the incumbent embryonic population, despite the greater proliferative activity of newly recruited cells. Furthermore, although monocyte-derived cells acquire key characteristics of the embryonic population, expression of Tim4 was impaired, leading to cumulative changes in the population with age.

AB - Peritoneal macrophages are one of the most studied macrophage populations in the body, yet the composition, developmental origin and mechanisms governing the maintenance of this compartment are controversial. Here we show resident F4/80 hi GATA6 + macrophages are long-lived, undergo non-stochastic self-renewal and retain cells of embryonic origin for at least 4 months in mice. However, Ly6C + monocytes constitutively enter the peritoneal cavity in a CCR2-dependent manner, where they mature into short-lived F4/80lo MHCII+ cells that act, in part, as precursors of F4/80 hi GATA6 + macrophages. Notably, monocyte-derived F4/80 hi macrophages eventually displace the embryonic population with age in a process that is highly gender dependent and not due to proliferative exhaustion of the incumbent embryonic population, despite the greater proliferative activity of newly recruited cells. Furthermore, although monocyte-derived cells acquire key characteristics of the embryonic population, expression of Tim4 was impaired, leading to cumulative changes in the population with age.

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Long-lived self-renewing bone marrow-derived macrophages displace embryo-derived cells to inhabit adult serous cavities

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