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Centrosome function is critical during terminal erythroid differentiation

Péter Tátrai, Fanni Gergely

2022The EMBO Journal18 citationsDOIOpen Access PDF

Abstract

Red blood cells are produced by terminal erythroid differentiation, which involves the dramatic morphological transformation of erythroblasts into enucleated reticulocytes. Microtubules are important for enucleation, but it is not known if the centrosome, a key microtubule‐organizing center, is required as well. Mice lacking the conserved centrosome component, CDK5RAP2, are likely to have defective erythroid differentiation because they develop macrocytic anemia. Here, we show that fetal liver‐derived, CDK5RAP2‐deficient erythroid progenitors generate fewer and larger reticulocytes, hence recapitulating features of macrocytic anemia. In erythroblasts, but not in embryonic fibroblasts, loss of CDK5RAP2 or pharmacological depletion of centrosomes leads to highly aberrant spindle morphologies. Consistent with such cells exiting mitosis without chromosome segregation, tetraploidy is frequent in late‐stage erythroblasts, thereby giving rise to fewer but larger reticulocytes than normal. Our results define a critical role for CDK5RAP2 and centrosomes in spindle formation specifically during blood production. We propose that disruption of centrosome and spindle function could contribute to the emergence of macrocytic anemias, for instance, due to nutritional deficiency or exposure to chemotherapy. Immature erythroid cells differentiate into red blood cells by undergoing a defined number of cell divisions followed by ejection of their nuclei. This study investigates the role of centrosomes in this process using ex vivo differentiation of fetal liver‐derived erythroid progenitors in mice. While centrosomal CDK5RAP2 is not essential for gamma‐tubulin recruitment during the mammalian cell cycle, its absence causes erythroid enucleation defects leading to macrocytic anemia.

Topics & Concepts

ConceptualizationLibrary scienceFunction (biology)BiologyComputer scienceGeneticsArtificial intelligenceCRISPR and Genetic EngineeringPluripotent Stem Cells ResearchEpigenetics and DNA Methylation
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