Interferon regulatory factor 4 (IRF4) is an essential regulator in the development of many immune cells, including B and T cells and has been implicated directly in numerous haematological malignancies, including Adult T-cell leukemia/lymphoma (ATLL). Recently, an activating mutation in the DNA binding domain of IRF4 (IRF4K59R), was found as a recurrent somatic mutation in ATLL patients. However, it remains unknown how this mutation gives rise to the observed oncogenic effect. To understand the mode of IRF4K59R mediated gain of function in ATLL pathogenesis, we have determined the structural and affinity basis of IRF4K59R/DNA homodimer complex using X-ray crystallography and surface plasmon resonance. Our study shows that arginine substitution (R59) results in the reorientation of the side chain, enabling the guanidium group to interact with the phosphate backbone of the DNA helix. This markedly contrasts with the IRF4WT wherein the K59 interacts exclusively with DNA bases. Further, the arginine mutation causes enhanced DNA bending, enabling the IRF4K59R to interact more robustly with known DNA targets, as evidenced by increased binding affinity of the protein-DNA complex. Together, we demonstrate how key structural features underpin the basis for this activating mutation, thereby providing a molecular rationale for IRF4K59R-mediated ATLL development.
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