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Structures of the Ets Domains of Transcription Factors ETV1, ETV4, ETV5 and FEV: Determinants of DNA Binding and Redox Regulation by Disulfide bond formation

DOI: 10.1074/jbc.M115.646737 DOI Help
PMID: 25866208 PMID Help

Authors: Christopher Cooper (University of Oxford) , Joseph A Newman (University of Oxford) , Hazel Aitkenhead (Beatson Institute for Cancer Research) , Charles K. Allerston (University of Oxford) , Opher Gileadi (University of Oxford)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Journal Of Biological Chemistry

State: Published (Approved)
Published: April 2015
Diamond Proposal Number(s): 6391 , 8421

Open Access Open Access

Abstract: Ets transcription factors, which share the conserved Ets DNA-binding domain, number nearly 30 members in humans and are particularly involved in developmental processes. Their deregulation following changes in expression, transcriptional activity, or by chromosomal translocation, plays a critical role in carcinogenesis. Ets DNA-binding, selectivity and regulation have been extensively studied, although questions still arise regarding binding specificity outside the core GGA recognition sequence, and the mode of action of Ets post-translational modifications. Here we report the crystal structures of ETV1, ETV4, ETV5 and FEV, alone and in complex with DNA. We identify previously unrecognized features of the protein-DNA interface. Interactions with the DNA backbone account for most of the binding affinity. We describe a highly coordinated network of water molecules acting in base selection upstream of the GGAA core, and the structural features that may account for discrimination against methylated cytidine residues. Unexpectedly, all proteins crystallized as disulfide-linked dimers, exhibiting a novel interface (distant to the DNA recognition helix). Homodimers of ETV1, ETV4 and ETV5 could be reduced to monomers, leading to a 40-200-fold increase in DNA binding affinity. Hence, we present the first indication of a redox-dependent regulatory mechanism which may control the activity of this subset of oncogenic Ets transcription factors.

Subject Areas: Biology and Bio-materials

Instruments: I02-Macromolecular Crystallography , I03-Macromolecular Crystallography , I04-Macromolecular Crystallography , I24-Microfocus Macromolecular Crystallography

Added On: 24/04/2015 09:14

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