Comparative DNA methylation profiling of human and murine ALK‐positive B‐cell neoplasms

Structural genomic variants leading to anaplastic lymphoma kinase (ALK) gene fusions and aberrant expression of the ALK tyrosine kinase are the hallmark of subtypes of T- and B-lineage neoplasms, namely ALK-positive anaplastic large lymphoma (ALCL) and ALK-positive large B-cell lymphoma (LBCL). The latter is a rare aggressive lymphoma, which has been initially identified as a variant of diffuse LBCL (DLBCL) with plasmablastic features. Here, we performed comparative DNA methylation profiling of human and murine ALK-positive B-cell neoplasms. Array-based DNA methylation data from ALK-positive LBCL samples of eight patients were compared to that of DLBCL (n = 75), multiple myeloma (MM, n = 24), ALK-positive ALCL (n = 12) and normal B-cell populations (n = 93). ALK-positive LBCLs share a distinct DNA methylation signature similar to that of MM, characterized by lower global DNA methylation levels compared to DLBCLs and normal B-cell populations. DNA methylation alterations in ALK-positive LBCL were predominantly located in heterochromatic and polycomb-repressed regions. The epigenetic age and relative proliferative history of ALK-positive LBCL were intermediate between MM and DLBCL. B-cell neoplasms in NPM::ALK transgenic mice showed a similar hypomethylated signature when compared to normal murine B cells. Cross-species comparison indicated conservation of chromatin states and pathways affected by hypomethylation. Together, the findings suggest that in line with their phenotypical appearance human and murine ALK-positive B-cell lymphomas share an epigenetic profile more closely resembling that of plasma cell neoplasias than that of DLBCLs.