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Zebrafish macrophage developmental arrest underlies depletion of microglia and reveals Csf1r-independent metaphocytes

LE. Kuil, N. Oosterhof, G. Ferrero, T. Mikulášová, M. Hason, J. Dekker, M. Rovira, HC. van der Linde, PM. van Strien, E. de Pater, G. Schaaf, EM. Bindels, V. Wittamer, TJ. van Ham

. 2020 ; 9 (-) : . [pub] 20200505

Language English Country Great Britain

Document type Journal Article, Research Support, Non-U.S. Gov't, Video-Audio Media

Persistent link   https://www.medvik.cz/link/bmc21012611

Grant support
WELBIO-CR-2015S-04 WELBIO - International
322368 Marie Curie - United Kingdom
VENI 016.136.150 ZonMw - Netherlands
F451218F Fonds de la Recherche Scientifique FNRS under Incentive Grant for Scientific Research - International
18-18363S Czech Science Foundation - International
University Fellowship Erasmus University Rotterdam - International
322368 Marie Curie Career Integration Grant - International
F451218F Fonds De La Recherche Scientifique - FNRS - International

Macrophages derive from multiple sources of hematopoietic progenitors. Most macrophages require colony-stimulating factor 1 receptor (CSF1R), but some macrophages persist in the absence of CSF1R. Here, we analyzed mpeg1:GFP-expressing macrophages in csf1r-deficient zebrafish and report that embryonic macrophages emerge followed by their developmental arrest. In larvae, mpeg1+ cell numbers then increased showing two distinct types in the skin: branched, putative Langerhans cells, and amoeboid cells. In contrast, although numbers also increased in csf1r-mutants, exclusively amoeboid mpeg1+ cells were present, which we showed by genetic lineage tracing to have a non-hematopoietic origin. They expressed macrophage-associated genes, but also showed decreased phagocytic gene expression and increased epithelial-associated gene expression, characteristic of metaphocytes, recently discovered ectoderm-derived cells. We further demonstrated that juvenile csf1r-deficient zebrafish exhibit systemic macrophage depletion. Thus, csf1r deficiency disrupts embryonic to adult macrophage development. Zebrafish deficient for csf1r are viable and permit analyzing the consequences of macrophage loss throughout life.

References provided by Crossref.org

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$a Macrophages derive from multiple sources of hematopoietic progenitors. Most macrophages require colony-stimulating factor 1 receptor (CSF1R), but some macrophages persist in the absence of CSF1R. Here, we analyzed mpeg1:GFP-expressing macrophages in csf1r-deficient zebrafish and report that embryonic macrophages emerge followed by their developmental arrest. In larvae, mpeg1+ cell numbers then increased showing two distinct types in the skin: branched, putative Langerhans cells, and amoeboid cells. In contrast, although numbers also increased in csf1r-mutants, exclusively amoeboid mpeg1+ cells were present, which we showed by genetic lineage tracing to have a non-hematopoietic origin. They expressed macrophage-associated genes, but also showed decreased phagocytic gene expression and increased epithelial-associated gene expression, characteristic of metaphocytes, recently discovered ectoderm-derived cells. We further demonstrated that juvenile csf1r-deficient zebrafish exhibit systemic macrophage depletion. Thus, csf1r deficiency disrupts embryonic to adult macrophage development. Zebrafish deficient for csf1r are viable and permit analyzing the consequences of macrophage loss throughout life.
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