[Gene regulatory networks operated by iron-heme metabolism: focusing on the erythroid differentiation system].

[Rinsho ketsueki] The Japanese journal of clinical hematology Pub Date : 2023-01-01 DOI:10.11406/rinketsu.64.406

Hiroki Kato, Kazuhiko Igarashi

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Abstract

Recently, attention has been focused on how metabolites regulate cellular differentiation. Heme synthesis is greatly enhanced during erythroid differentiation. Heme is used for hemoglobin synthesis, which is needed for oxygen transport by red blood cells. Additionally, several pieces of evidence revealed that heme may control gene expression to fulfill erythroblast terminal maturation. For instance, heme binds to and inactivates the transcription factor BTB Domain And CNC Homolog 1 (BACH1), thereby inducing the globin gene expression, which is the repressive target of BACH1. Moreover, heme induces autophagy/mitophagy-related gene expressions, which are the targets of the transcription factor GATA1 and may promote erythrocyte maturation by itself. Heme may directly bind to guanine tetramer (G-quadruplex) regions of genomic DNA, thereby regulating nearby gene expressions. Here, we present an overview of the mechanism by which iron-heme metabolism regulates gene regulatory networks by focusing on the erythroid differentiation system. Additionally, we discuss the prospects of future research regarding iron-heme metabolism.

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[由铁血红素代谢操作的基因调控网络:聚焦于红细胞分化系统]。

近年来，代谢物如何调节细胞分化已成为人们关注的焦点。血红素合成在红系分化过程中大大增强。血红素用于血红蛋白的合成，血红蛋白是红细胞运输氧气所必需的。此外，一些证据表明，血红素可能控制基因表达，以实现红母细胞终末成熟。例如，血红素结合转录因子BTB Domain and CNC Homolog 1 (BACH1)并使其失活，从而诱导珠蛋白基因表达，这是BACH1的抑制靶点。此外，血红素诱导自噬/有丝自噬相关基因的表达，这些基因是转录因子GATA1的靶点，并可能自身促进红细胞成熟。血红素可以直接结合到基因组DNA的鸟嘌呤四聚体(g -四聚体)区域，从而调节附近基因的表达。在这里，我们提出的机制，铁血红素代谢调节基因调控网络的重点是红细胞分化系统的概述。此外，我们还对铁血红素代谢的未来研究进行了展望。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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[Rinsho ketsueki] The Japanese journal of clinical hematology

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