Infection Perturbs Bach2- and Bach1-dependent Erythroid Lineage 'choice' to Cause Anemia

Overview

Journal Nat Immunol

Date 2018 Sep 26

PMID 30250186

Citations 20

Authors

Hiroki Kato

Ari Itoh-Nakadai

Mitsuyo Matsumoto

Yusho Ishii

Miki Watanabe-Matsui

Masatoshi Ikeda

Risa Ebina-Shibuya

Yuki Sato

Masahiro Kobayashi

Hironari Nishizawa

Katsushi Suzuki

Akihiko Muto

Tohru Fujiwara

Yasuhito Nannya

Luca Malcovati

Mario Cazzola

Seishi Ogawa

Hideo Harigae

Kazuhiko Igarashi

Affiliations

Soon will be listed here.

Abstract

Elucidation of how the differentiation of hematopoietic stem and progenitor cells (HSPCs) is reconfigured in response to the environment is critical for understanding the biology and disorder of hematopoiesis. Here we found that the transcription factors (TFs) Bach2 and Bach1 promoted erythropoiesis by regulating heme metabolism in committed erythroid cells to sustain erythroblast maturation and by reinforcing erythroid commitment at the erythro-myeloid bifurcation step. Bach TFs repressed expression of the gene encoding the transcription factor C/EBPβ, as well as that of its target genes encoding molecules important for myelopoiesis and inflammation; they achieved the latter by binding to their regulatory regions also bound by C/EBPβ. Lipopolysaccharide diminished the expression of Bach TFs in progenitor cells and promoted myeloid differentiation. Overexpression of Bach2 in HSPCs promoted erythroid development and inhibited myelopoiesis. Knockdown of BACH1 or BACH2 in human CD34 HSPCs impaired erythroid differentiation in vitro. Thus, Bach TFs accelerate erythroid commitment by suppressing the myeloid program at steady state. Anemia of inflammation and myelodysplastic syndrome might involve reduced activity of Bach TFs.

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