Microglial colonisation of the developing brain is facilitated by clonal expansion of highly proliferative progenitors, following allometric scaling
Microglial colonisation of the developing brain is facilitated by clonal expansion of highly proliferative progenitors, following allometric scaling
Microglia arise from the yolk sac and enter the brain during early embryogenesis. Upon entry, microglia undergo in situ proliferation and eventually colonize the entire brain by the third postnatal week in mice. However, the intricacies of their developmental expansion remain unclear. Here, we characterize the proliferative dynamics of microglia during embryonic and postnatal development using complementary fate-mapping techniques. We demonstrate that the developmental colonization of the brain is facilitated by clonal expansion of highly proliferative microglial progenitors that occupy spatial niches throughout the brain. Moreover, the spatial distribution of microglia switches from a clustered to a random pattern between embryonic and late postnatal development. Interestingly, the developmental increase in microglial numbers follows the proportional growth of the brain in an allometric manner until a mosaic distribution has been established. Overall, our findings offer insight into how the competition for space may drive microglial colonization by clonal expansion during development.
Barry-Carroll, Liam
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Greulich, Philip
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Marshall, Abigail Rose
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Riecken, Kristoffer
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Fehse, Boris
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Askew, Katharine Elizabeth
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Li, Kaizhen
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Garaschuk, Olga
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Menassa, David
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Gomez-Nicola, Diego
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25 April 2023
Barry-Carroll, Liam
2ea75b82-34cd-4283-9d28-8ac0f7a2bbde
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
Marshall, Abigail Rose
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Riecken, Kristoffer
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Fehse, Boris
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Askew, Katharine Elizabeth
ffc96fb4-f94c-4cb7-8479-e9f0b2dae0c7
Li, Kaizhen
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Garaschuk, Olga
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Menassa, David
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Gomez-Nicola, Diego
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Barry-Carroll, Liam, Greulich, Philip, Marshall, Abigail Rose, Riecken, Kristoffer, Fehse, Boris, Askew, Katharine Elizabeth, Li, Kaizhen, Garaschuk, Olga, Menassa, David and Gomez-Nicola, Diego
(2023)
Microglial colonisation of the developing brain is facilitated by clonal expansion of highly proliferative progenitors, following allometric scaling.
Cell Reports, 42 (5), [112425].
(doi:10.1016/j.celrep.2023.112425).
Abstract
Microglia arise from the yolk sac and enter the brain during early embryogenesis. Upon entry, microglia undergo in situ proliferation and eventually colonize the entire brain by the third postnatal week in mice. However, the intricacies of their developmental expansion remain unclear. Here, we characterize the proliferative dynamics of microglia during embryonic and postnatal development using complementary fate-mapping techniques. We demonstrate that the developmental colonization of the brain is facilitated by clonal expansion of highly proliferative microglial progenitors that occupy spatial niches throughout the brain. Moreover, the spatial distribution of microglia switches from a clustered to a random pattern between embryonic and late postnatal development. Interestingly, the developmental increase in microglial numbers follows the proportional growth of the brain in an allometric manner until a mosaic distribution has been established. Overall, our findings offer insight into how the competition for space may drive microglial colonization by clonal expansion during development.
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Accepted/In Press date: 6 April 2023
e-pub ahead of print date: 25 April 2023
Published date: 25 April 2023
Identifiers
Local EPrints ID: 476548
URI: http://eprints.soton.ac.uk/id/eprint/476548
ISSN: 2211-1247
PURE UUID: dfbf3507-ee19-485a-9181-5977f32c7d2f
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Date deposited: 05 May 2023 16:43
Last modified: 06 May 2023 01:49
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Contributors
Author:
Liam Barry-Carroll
Author:
Abigail Rose Marshall
Author:
Kristoffer Riecken
Author:
Boris Fehse
Author:
Katharine Elizabeth Askew
Author:
Kaizhen Li
Author:
Olga Garaschuk
Author:
David Menassa
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