五种转录因子和 FGF 通路抑制有效地诱导上胚层中的红细胞分化。

Five transcription factors and FGF pathway inhibition efficiently induce erythroid differentiation in the epiblast.

机构信息

Laboratory for Early Embryogenesis, RIKEN Center for Developmental Biology, Kobe, Hyogo 650-0047, Japan.

出版信息

Stem Cell Reports. 2014 Mar 6;2(3):262-70. doi: 10.1016/j.stemcr.2014.01.019. eCollection 2014 Mar 11.

DOI:10.1016/j.stemcr.2014.01.019

PMID:24672750

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3964278/

Abstract

Primitive erythropoiesis follows a stereotypic developmental program of mesoderm ventralization and internalization, hemangioblast formation and migration, and erythroid lineage specification. Induction of erythropoiesis is inefficient in either ES/iPS cells in vitro or nonhemangioblast cell populations in vivo. Using the chick model, we report that epiblast cells can be directly and efficiently differentiated into the erythroid lineage by expressing five hematopoietic transcription regulators (SCL+LMO2+GATA2+LDB1+E2A) and inhibiting the FGF pathway. We show that these five genes are expressed with temporal specificity during normal erythropoiesis. Initiation of SCL and LMO2 expression requires FGF activity, whereas erythroid differentiation is enhanced by FGF inhibition. The lag between hematopoiesis and erythropoiesis is attributed to sequential coregulator expression and hemangioblast migration. Globin gene transcription can be ectopically and prematurely induced by manipulating the availability of these factors and the FGF pathway activity. We propose that similar approaches can be taken for efficient erythroid differentiation in vitro.

摘要

原始红细胞生成遵循中胚层腹侧化和内化、血岛形成和迁移以及红细胞谱系特化的典型发育程序。在体外 ES/iPS 细胞或体内非血岛细胞群体中，红细胞生成的诱导效率很低。使用鸡模型，我们报告说，通过表达五个造血转录调节剂（SCL+LMO2+GATA2+LDB1+E2A）并抑制 FGF 途径，胚外细胞可以直接有效地分化为红细胞谱系。我们表明，这五个基因在正常红细胞生成过程中具有时间特异性表达。SCL 和 LMO2 表达的启动需要 FGF 活性，而 FGF 抑制可增强红细胞分化。造血和红细胞生成之间的滞后归因于核心调节剂表达和血岛迁移的顺序。通过操纵这些因素和 FGF 途径活性的可用性，可以异位和过早地诱导珠蛋白基因转录。我们提出，类似的方法可用于体外高效的红细胞分化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/06c0/3964278/f8cf79c79f3e/fx1.jpg

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五种转录因子和 FGF 通路抑制有效地诱导上胚层中的红细胞分化。

Five transcription factors and FGF pathway inhibition efficiently induce erythroid differentiation in the epiblast.

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