The relationships between microglia and macrophages, especially their lineage segregation outside the yolk sac, have been recently explored, providing a model in which a conversion from macrophages seeds microglia during brain development. However, spatiotemporal evidence to support such microglial seeding and to explain how it occurs has not been obtained. By cell tracking via slice culture, intravital imaging, and Flash tag-mediated labeling, we found that a group of intraventricular macrophages belonging to border-associated macrophages (BAMs), which were abundantly observed along the inner surface of the mouse cerebral wall at embryonic day 12, frequently entered the brain wall. Immunohistochemistry of the tracked cells showed that postinfiltrative BAMs acquired microglial properties while losing a macrophage phenotype. We also found that the intraventricular BAMs were supplied transepithelially from the roof plate. Thus, this study demonstrates that the ″roof plate→ventricle→cerebral wall″ route is an essential path for microglial colonization into the embryonic mouse brain.
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