Dual function of Ixr1 in transcriptional regulation and recognition of cisplatin-DNA adducts is caused by differential binding through its two HMG-boxes.

A Vizoso-Vázquez, M Lamas-Maceiras, R Fernández-Leiro, A Rico-Díaz, M Becerra, M E Cerdán

Biochimica et biophysica acta 2017 Feb

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Ixr1 is a transcriptional factor involved in the response to hypoxia, which is also related to DNA repair. It binds to DNA through its two in-tandem high mobility group box (HMG-box) domains. Each function depends on recognition of different DNA structures, B-form DNA at specific consensus sequences for transcriptional regulation, or distorted DNA, like cisplatin-DNA adducts, for DNA repair. However, the contribution of the HMG-box domains in the Ixr1 protein to the formation of different protein-DNA complexes is poorly understood. We have biophysically and biochemically characterized these interactions with specific DNA sequences from the promoters regulated by Ixr1, or with cisplatin-DNA adducts. Both HMG-boxes are necessary for transcriptional regulation, and they are not functionally interchangeable. The in-tandem arrangement of their HMG-boxes is necessary for functional folding and causes sequential cooperative binding to specific DNA sequences, with HMG-box A showing a higher contribution to DNA binding and bending than the HMG-box B. Binding of Ixr1 HMG boxes to specific DNA sequences is entropy driven, whereas binding to platinated DNA is enthalpy driven for HMG-box A and entropy driven for HMG-box B. This is the first proof that HMG-box binding to different DNA structures is associated with predictable thermodynamic differences. Based on our study, we present a model to explain the dual function of Ixr1 in the regulation of gene expression and recognition of distorted DNA structures caused by cisplatin treatment. Copyright © 2016 Elsevier B.V. All rights reserved.

Citation

A Vizoso-Vázquez, M Lamas-Maceiras, R Fernández-Leiro, A Rico-Díaz, M Becerra, M E Cerdán. Dual function of Ixr1 in transcriptional regulation and recognition of cisplatin-DNA adducts is caused by differential binding through its two HMG-boxes. Biochimica et biophysica acta. 2017 Feb;1860(2):256-269