Introduction: The NUP98-TOP1 fusion gene is one of 18 distinct translocations identified in acute myeloid leukemia involving the N-terminal portion of the nucleoporin NUP98. We previously reported that expression of NUP98-TOP in murine bone marrow induces a lethal, transplantable leukemia. However, the long latency suggests the in vivo acquisition of additional mutations and/or time required for clonal outgrowth of rare transformed cells arising from the collaboration of NUP98-TOP1 and a cooperating event. The aim of this study was to test whether retroviral insertional mutagenesis contributes to disease onset and whether integration site analysis can identify collaborating genes.
Methods: The genomic sites of retroviral integration in NUP98-TOP1-induced leukemic mice were analyzed. This screen identified a proviral integration that disrupts expression of the Interferon consensus sequence binding protein (ICSBP) tumor suppressor gene. Intriguingly, an ICSBP deficiency induces a chronic myeloid leukemia-like disease in mice and its reduced expression has been observed in several human leukemias. To ascertain whether an ISCBP deficiency collaborates with NUP98-TOP1 in leukemogenesis, we expressed NUP98-TOP1 in ICSBP(-/-) bone marrow.
Results: The in vivo myeloproliferation induced by NUP98-TOP1 was markedly exaggerated with the ICSBP(-/-) deficiency. Moreover, NUP98-TOP1/ICSBP(-/-) mice had a reduced survival compared with NUP98-TOP1/ICSBP(+/+) mice.
Conclusion: These results reveal the novel finding of collaboration between the ICSBP tumor suppressor gene and NUP98-TOP1 in leukemogenesis. Moreover they further illustrate the power of retroviral integration site analysis for identifying novel cooperating tumor suppressor genes.