LDB1 represses fetal hemoglobin expression by enhancing BCL11A transcription
Si-Won Park, Chang-Yong Choi, In-Byung Park, Seok-Jin Kang, Hyeon Jeong Lee, Ji-In Kim, Joonbeom Bae, Dongho Geum, Yong-Pil Cheon, Taehoon Chun

TL;DR
LDB1 helps switch from fetal to adult hemoglobin by boosting BCL11A, which prevents cell death in blood cell development.
Contribution
LDB1 is newly identified as a key enhancer of BCL11A transcription, crucial for fetal globin silencing in erythropoiesis.
Findings
LDB1 deficiency causes ROS-mediated apoptosis due to excessive heme in proerythroblasts.
LDB1 activates BCL11A transcription by binding to its enhancer regions.
BCL11A overexpression rescues LDB1-deficient cells from apoptosis.
Abstract
Deciphering the mechanism governing the temporal switch from fetal to adult hemoglobin during erythropoiesis has significant clinical relevance. Here, we identify LDB1 as a pivotal regulator of β-globin switching in erythroid progenitors. The absence of LDB1 in proerythroblasts from mouse fetal liver leads to cell cycle arrest and apoptosis due to the accumulation of reactive oxygen species (ROS), resulting from excessive heme content caused by significant overexpression of embryonic β-globin genes such as Hbb-y and Hbb-bh1. Mechanistically, LDB1 directly enhances the mRNA expression of fetal globin gene repressors, including Bcl11a, Cbfa2t3, and Sox6. Moreover, the LDB1 complex, which includes LMO2 and GATA1, binds directly to enhancer regions of Bcl11a, promoting its transcription. CRISPR/Cas9-mediated LDB1 knockout in human erythroleukemia cells confirmed LDB1 as a key enhancer of…
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Taxonomy
TopicsHemoglobinopathies and Related Disorders · Erythrocyte Function and Pathophysiology · Blood groups and transfusion
