Megakaryocyte polyploidization: role in platelet production

巨核细胞 血小板 血小板生成素 有丝分裂 生物 血小板生成素 巨核细胞生成 细胞质 血小板紊乱 胞质分裂 细胞生物学 细胞分裂 造血 免疫学 遗传学 干细胞 细胞
作者
William Vainchenker,Hana Raslová
出处
期刊:Platelets [Informa]
卷期号:31 (6): 707-716 被引量:41
标识
DOI:10.1080/09537104.2019.1667497
摘要

Mammal megakaryocytes (MK) undergo polyploidization during their differentiation. This process leads to a marked increase in the MK size and of their cytoplasm. Contrary to division by classical mitosis, ploidization allows an economical manner to produce platelets as they arise from the fragmentation of the MK cytoplasm. The platelet production in vivo correlates to the entire MK cytoplasm mass that depends both upon the number of MKs and their size. Polyploidization occurs by several rounds of DNA replication with at the end of each round an aborted mitosis at late phase of cytokinesis. As there is also a defect in karyokinesis, MKs are giant cells with a single polylobulated nucleus with a 2xN ploidy. However, polyploidization per se does not increase platelet production because it requires a parallel development of MK organelles such as mitochondria, granules and the demarcation membrane system. MK polyploidization is regulated by extrinsic factors, more particularly by thrombopoietin (TPO), which during a platelet stress increases first polyploidization before enhancing the MK number and by transcription factors such as RUNX1, GATA1, and FLI1 that regulate MK differentiation explaining why polyploidization and cytoplasmic maturation are intermingled. MK polyploidization is ontogenically regulated and is markedly altered in malignant myeloid disorders such as acute megakaryoblastic leukemia and myeloproliferative disorders as well as in hereditary thrombocytopenia, more particularly those involving transcription factors or signaling pathways. In addition, MKs arising from progenitors in vitro have a much lower ploidy in vitro than in vivo leading to a low yield of platelet production in vitro. Thus, it is tempting to find approaches to increase MK polyploidization in vitro. However, these approaches require molecules that are able to simultaneously increase MK polyploidization and to induce terminal differentiation. Here, we will focus on the regulation by extrinsic and intrinsic factors of MK polyploidization during development and pathological conditions.
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