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血红素调控的真核起始因子 2α 激酶在红细胞生成中的翻译调控。

Translational control by heme-regulated eIF2α kinase during erythropoiesis.

机构信息

Institute for Medical Engineering and Science, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA.

出版信息

Curr Opin Hematol. 2014 May;21(3):172-8. doi: 10.1097/MOH.0000000000000030.

DOI:10.1097/MOH.0000000000000030
PMID:24714526
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4124034/
Abstract

PURPOSE OF REVIEW

This review will provide an overview of the translational regulation of globin mRNAs and integrated stress response (ISR) during erythropoiesis by heme-regulated eIF2α kinase (HRI). HRI is an intracellular heme sensor that coordinates heme and globin synthesis in erythropoiesis by inhibiting protein synthesis of globins and heme biosynthetic enzymes during heme deficiency.

RECENT FINDINGS

It has been demonstrated recently that HRI also activates the eIF2αP-activating transcription factor 4 (ATF4) ISR in primary erythroid precursors to combat oxidative stress. During chronic iron/heme deficiency in vivo, this HRI-eIF2αP-ATF4 signaling is necessary both to reduce oxidative stress and to promote erythroid differentiation. Augmenting eIF2αP signaling by the small molecule salubrinal, which inhibits dephosphorylation of eIF2αP, reduces excess α-globin synthesis and enhances translation of ATF4 mRNA in mouse β-thalassemic erythroid precursors. Intriguingly, salubrinal treatment of differentiating human CD34⁺ cells in culture increases fetal hemoglobin production with a concomitant decrease of adult hemoglobin by a posttranscriptional mechanism.

SUMMARY

HRI-eIF2αP-ATF4 stress signaling is important not only to inhibit excess globin synthesis during erythropoiesis, but is also critical for adaptation to oxidative stress and for enhancing effective erythropoiesis. Modulation of this signaling pathway with small chemicals may provide a novel therapy for hemoglobinopathy.

摘要

目的综述

本文综述了血红素调节的真核起始因子 2α 激酶(HRI)在红细胞生成过程中对珠蛋白 mRNA 的翻译调控及整合应激反应(ISR)的作用。HRI 是一种细胞内血红素感受器,在血红素缺乏时通过抑制珠蛋白和血红素生物合成酶的蛋白质合成,协调红细胞生成过程中的血红素和珠蛋白合成。

最新发现

最近研究表明,HRI 还可在原代红系前体细胞中激活真核起始因子 2α P-激活转录因子 4(ATF4)ISR,以应对氧化应激。在体内慢性铁/血红素缺乏的情况下,这种 HRI-eIF2αP-ATF4 信号通路对于降低氧化应激和促进红细胞分化都是必需的。小分子 Salubrinal 通过抑制 eIF2αP 的去磷酸化来增强 eIF2αP 信号,减少多余的α-珠蛋白合成,并增强小鼠β地中海贫血红系前体细胞中 ATF4mRNA 的翻译。有趣的是,在体外培养的分化人 CD34+细胞中用 Salubrinal 处理可增加胎儿血红蛋白的产生,同时通过转录后机制减少成人血红蛋白。

总结

HRI-eIF2αP-ATF4 应激信号不仅对抑制红细胞生成过程中多余的珠蛋白合成很重要,而且对适应氧化应激和增强有效的红细胞生成也至关重要。用小分子化合物调节这种信号通路可能为血红蛋白病提供一种新的治疗方法。

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