Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease
Brain microglia and border-associated macrophages (BAMs) display distinct spatial, developmental, and phenotypic features. Although at steady state, the origins of distinct brain macrophages are well-documented, the dynamics of their replenishment in neurodegenerative disorders remain elusive, parti...
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sg-ntu-dr.10356-1593852023-02-28T17:13:57Z Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease Wu, Xiaoting Saito, Takashi Saido, Takaomi C. Barron, Anna M. Ruedl, Christiane School of Biological Sciences Lee Kong Chian School of Medicine (LKCMedicine) Science::Biological sciences Alzheimer Disease Amyloid Beta Protein Brain microglia and border-associated macrophages (BAMs) display distinct spatial, developmental, and phenotypic features. Although at steady state, the origins of distinct brain macrophages are well-documented, the dynamics of their replenishment in neurodegenerative disorders remain elusive, particularly for activated CD11c+ microglia and BAMs. In this study, we conducted a comprehensive fate-mapping analysis of murine microglia and BAMs and their turnover kinetics during Alzheimer's disease (AD) progression. We used a novel inducible AD mouse model to investigate the contribution of bone marrow (BM) cells to the pool of fetal-derived brain macrophages during the development of AD. We demonstrated that microglia remain a remarkably stable embryonic-derived population even during the progression of AD pathology, indicating that neither parenchymal macrophage subpopulation originates from, nor is replenished by, BM-derived cells. At the border-associated brain regions, bona fide CD206+ BAMs are minimally replaced by BM-derived cells, and their turnover rates are not accelerated by AD. In contrast, all other myeloid cells are swiftly replenished by BM progenitors. This information further elucidates the turnover kinetics of these cells not only at steady state, but also in neurodegenerative diseases, which is crucial for identifying potential novel therapeutic targets. Ministry of Education (MOE) Published version This work was supported by the Ministry of Education Tier 1 grant awarded to CR. 2022-06-15T07:42:36Z 2022-06-15T07:42:36Z 2021 Journal Article Wu, X., Saito, T., Saido, T. C., Barron, A. M. & Ruedl, C. (2021). Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease. ELife, 10, e71879-. https://dx.doi.org/10.7554/eLife.71879 2050-084X https://hdl.handle.net/10356/159385 10.7554/eLife.71879 34609281 2-s2.0-85118501894 10 e71879 en MOE AcRF Tier 1 eLife 10.21979/N9/9RCHLK © 2021 Wu et al. This article is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use and redistribution provided that the original author and source are credited. application/pdf |
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Science::Biological sciences Alzheimer Disease Amyloid Beta Protein Wu, Xiaoting Saito, Takashi Saido, Takaomi C. Barron, Anna M. Ruedl, Christiane Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease |
| description |
Brain microglia and border-associated macrophages (BAMs) display distinct spatial, developmental, and phenotypic features. Although at steady state, the origins of distinct brain macrophages are well-documented, the dynamics of their replenishment in neurodegenerative disorders remain elusive, particularly for activated CD11c+ microglia and BAMs. In this study, we conducted a comprehensive fate-mapping analysis of murine microglia and BAMs and their turnover kinetics during Alzheimer's disease (AD) progression. We used a novel inducible AD mouse model to investigate the contribution of bone marrow (BM) cells to the pool of fetal-derived brain macrophages during the development of AD. We demonstrated that microglia remain a remarkably stable embryonic-derived population even during the progression of AD pathology, indicating that neither parenchymal macrophage subpopulation originates from, nor is replenished by, BM-derived cells. At the border-associated brain regions, bona fide CD206+ BAMs are minimally replaced by BM-derived cells, and their turnover rates are not accelerated by AD. In contrast, all other myeloid cells are swiftly replenished by BM progenitors. This information further elucidates the turnover kinetics of these cells not only at steady state, but also in neurodegenerative diseases, which is crucial for identifying potential novel therapeutic targets. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Wu, Xiaoting Saito, Takashi Saido, Takaomi C. Barron, Anna M. Ruedl, Christiane |
| format |
Article |
| author |
Wu, Xiaoting Saito, Takashi Saido, Takaomi C. Barron, Anna M. Ruedl, Christiane |
| author_sort |
Wu, Xiaoting |
| title |
Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease |
| title_short |
Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease |
| title_full |
Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease |
| title_fullStr |
Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease |
| title_full_unstemmed |
Microglia and CD206⁺ border-associated mouse macrophages maintain their embryonic origin during Alzheimer's disease |
| title_sort |
microglia and cd206⁺ border-associated mouse macrophages maintain their embryonic origin during alzheimer's disease |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159385 |
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1759858139867381760 |