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核心促红细胞生成素受体信号参与晚期成红细胞发育。

Core erythropoietin receptor signals for late erythroblast development.

作者信息

Menon Madhu P, Fang Jing, Wojchowski Don M

机构信息

Program in Stem Cell Biology, Maine Medical Center Research Institute, 81 Research Dr, Scarborough, ME 04074, USA.

出版信息

Blood. 2006 Apr 1;107(7):2662-72. doi: 10.1182/blood-2005-02-0684. Epub 2005 Dec 6.

DOI:10.1182/blood-2005-02-0684
PMID:16332976
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1895369/
Abstract

Critical signals for erythroblast formation are transduced by activated, tyrosine-phosphorylated erythropoietin receptor (EpoR) complexes. Nonetheless, steady-state erythropoiesis is supported effectively by EpoR alleles that are deficient in cytoplasmic phosphotyrosine sites. To better define core EpoR action mechanisms, signaling capacities of minimal PY-null (EpoR-HM) and PY343-retaining (EpoR-H) alleles were analyzed for the first time in bone marrow-derived erythroblasts. Jak2 activation via each allele was comparable. Stat5 (and several Stat5-response genes) were induced via EpoR-H but not via EpoR-HM. Stat1 and Stat3 activation was nominal for all EpoR forms. For both EpoR-HM and EpoR-H, Akt and p70S6-kinase activation was decreased multifold, and JNK activation was minimal. ERKs, however, were hyperactivated uniquely via EpoR-HM. In vivo, Epo expression in EpoR-HM mice was elevated, while Epo-induced reticulocyte production was diminished. In vitro, EpoR-HM erythroblast maturation also was attenuated (based on DNA content, forward-angle light scatter, and hemoglobinization). These EpoR-HM-specific defects were corrected not only upon PY343 site restoration in EpoR-H, but also upon MEK1,2 inhibition. Core EpoR PY site-independent signals for erythroblast formation therefore appear to be Stat5, Stat1, Stat3, p70S6-kinase, and JNK independent, but ERK dependent. Wild-type signaling capacities, however, depend further upon signals provided via an EpoR/PY343/Stat5 axis.

摘要

红细胞生成的关键信号由活化的、酪氨酸磷酸化的促红细胞生成素受体(EpoR)复合物转导。尽管如此,缺乏细胞质磷酸酪氨酸位点的EpoR等位基因仍能有效地支持稳态红细胞生成。为了更好地定义EpoR的核心作用机制,首次在骨髓来源的成红细胞中分析了最小化的无PY(EpoR-HM)和保留PY343(EpoR-H)等位基因的信号传导能力。通过每个等位基因激活Jak2的情况相当。Stat5(以及几个Stat5反应基因)通过EpoR-H诱导,但不通过EpoR-HM诱导。对于所有EpoR形式,Stat1和Stat3的激活程度均为中等。对于EpoR-HM和EpoR-H,Akt和p70S6激酶的激活均降低了数倍,而JNK的激活程度最小。然而,ERK仅通过EpoR-HM被过度激活。在体内,EpoR-HM小鼠中的Epo表达升高,而Epo诱导的网织红细胞生成减少。在体外,EpoR-HM成红细胞的成熟也受到抑制(基于DNA含量、前向角光散射和血红蛋白化)。这些EpoR-HM特异性缺陷不仅在EpoR-H中PY343位点恢复后得到纠正,而且在MEK1,2抑制后也得到纠正。因此,成红细胞形成的核心EpoR PY位点非依赖性信号似乎不依赖于Stat5、Stat1、Stat3、p70S6激酶和JNK,但依赖于ERK。然而,野生型信号传导能力还进一步依赖于通过EpoR/PY343/Stat5轴提供的信号。

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