Phosphorylation of 'SDT-like' motifs in ATRX mediates its interaction with the MRN complex and is important for ALT pathway suppression.

Approximately 10-15% of human cancers are telomerase-negative and maintain their telomeres through a recombination-based process known as the alternative lengthening of telomeres (ALT) pathway. Loss of the alpha-thalassemia/mental retardation, X-linked (ATRX) chromatin remodeller is a common event in ALT-positive cancers, but is generally insufficient to drive ALT induction in isolation. We previously demonstrated that ATRX binds to the MRN complex, which is also known to be important in the ALT pathway, but the molecular basis of this interaction remained elusive. Here, we demonstrate that the interaction between ATRX and MRN is dependent on the N-terminal forkhead-associated and BRCA1 C-terminal domains of NBS1, analogous to the previously reported NBS1-MDC1 interaction. A number of conserved 'SDT-like' motifs (serine and threonine residues with aspartic/glutamic acid residues at proximal positions) in the central unstructured region of ATRX were found to be crucial for the ATRX-MRN interaction. Furthermore, treatment with a casein kinase 2 inhibitor prevented the ability of ATRX to bind MRN, suggesting that phosphorylation of these residues by casein kinase 2 is also important for the interaction. Finally, we show that a functional ATRX-MRN interaction is important for the ability of ATRX to prevent induction of ALT hallmarks in the presence of chemotherapeutically induced DNA-protein crosslinks, and might also have implications for individuals with ATR-X syndrome.