Multimeric Transcription Factor BCL11A Utilizes Two Zinc-Finger Tandem Arrays To Bind Clustered Short Sequence Motifs

Authors

John R Horton
Meigen Yu
Jujun Zhou
Melody Tran
Rithvi R Anakal
Yue Lu
Robert M Blumenthal
Xiaotian Zhang
Yun Huang
Xing Zhang
Xiaodong Cheng

Publication Date

4-17-2025

Journal

Nature Communications

Abstract

BCL11A, a transcription factor, is vital for hematopoiesis, including B and T cell maturation and the fetal-to-adult hemoglobin switch. Mutations in BCL11A are linked to neurodevelopmental disorders. BCL11A contains two DNA-binding zinc-finger arrays, low-affinity ZF2-3 and high-affinity ZF4-6, separated by a 300-amino-acid linker. ZF2-3 and ZF4-5 share 73% identity, including five out of six DNA base-interacting residues. These arrays bind similar short sequence motifs in clusters, with the linker enabling a broader binding span. Crystallographic structures of ZF4-6, in complex with oligonucleotides from the β-globin locus region, reveal DNA sequence recognition by residues Asn756 (ZF4), Lys784 and Arg787 (ZF5). A Lys784-to-Thr mutation, linked to a neurodevelopmental disorder with persistent fetal globin expression, reduces DNA binding over 10-fold but gains interaction with a variable base pair. BCL11A isoforms may form oligomers, enhancing chromatin occupancy and repressor functions by allowing multiple copies of both low- and high-affinity ZF arrays to bind DNA. These distinctive properties, apparently conserved among vertebrates, provide essential functional flexibility to this crucial regulator.

Keywords

Zinc Fingers, Humans, DNA, Repressor Proteins, Protein Binding, Crystallography, X-Ray, Mutation, beta-Globins, Models, Molecular, Binding Sites, Transcription Factors, Amino Acid Sequence, Carrier Proteins

DOI

10.1038/s41467-025-58998-7

PMID

40246927

PMCID

PMC12006351

PubMedCentral® Posted Date

4-17-2025

PubMedCentral® Full Text Version

Post-print

Published Open-Access

yes