Differential chromatin accessibility response to retinoic acid in neuroblastoma with ATRX in-frame-deletions versus ATRX loss-of-function.

Neuroblastoma is a childhood cancer, arising in the developing sympathetic nervous system. Differentiation therapy with 13-cis-retinoic acid (RA) is given to children with neuroblastoma to prevent relapse, however there is little understanding of which patients benefit. ATRX alterations are identified in 10 % of high-risk neuroblastomas and associated with poor outcomes. The commonest type of ATRX alterations in neuroblastoma are in-frame multi-exon deletions, followed by nonsense mutations predicted to result in loss-of-function (ATRX LoF). We treated paired ATRX wild-type and LoF neuroblastoma cell-lines with RA: cells with ATRX LoF fail to upregulate direct RA target genes and show reduced chromatin accessibility differentiation and development related genes following RA treatment. Conversely, neuroblastoma models with in-frame deletions mount an appropriate epigenetic response to RA. Taken together this shows that the mechanism of differentiation in ATRX-altered neuroblastoma depends on the type of ATRX alteration, with implications relating to both oncogenesis and therapeutic response.