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ATF4 Regulates MYB to Increase γ-Globin in Response to Loss of β-Globin

Mandy Boontanrart, Markus Schröder, Gautier Stehli, Marija Banović, Stacia K. Wyman, Rachel J. Lew, Matteo Bordi, Benjamin G. Gowen, Mark A. DeWitt, Jacob E. Corn

2020Cell Reports38 citationsDOIOpen Access PDF

Abstract

β-Hemoglobinopathies can trigger rapid production of red blood cells in a process known as stress erythropoiesis. Cellular stress prompts differentiating erythroid precursors to express high levels of fetal γ-globin. However, the mechanisms underlying γ-globin production during cellular stress are still poorly defined. Here, we use CRISPR-Cas genome editing to model the stress caused by reduced levels of adult β-globin. We find that decreased β-globin is sufficient to induce robust re-expression of γ-globin, and RNA sequencing (RNA-seq) of differentiating isogenic erythroid precursors implicates ATF4 as a causal regulator of this response. ATF4 binds within the HBS1L-MYB intergenic enhancer and regulates expression of MYB, a known γ-globin regulator. Overall, the reduction of ATF4 upon β-globin knockout decreases the levels of MYB and BCL11A. Identification of ATF4 as a key regulator of globin compensation adds mechanistic insight to the poorly understood phenomenon of stress-induced globin compensation and could inform strategies to treat hemoglobinopathies.

Topics & Concepts

GlobinRegulatorBiologyATF4EnhancerErythropoiesisMYBCell biologyFetal hemoglobinIntegrated stress responseGeneticsGene expressionTranscription factorGeneMessenger RNAFetusAnemiaMedicineInternal medicineTranslation (biology)PregnancyHemoglobinopathies and Related DisordersErythrocyte Function and PathophysiologyCRISPR and Genetic Engineering
ATF4 Regulates MYB to Increase γ-Globin in Response to Loss of β-Globin | Litcius