Altered enhancer-promoter interaction leads to MNX1 expression in pediatric acute myeloid leukemia with t(7;12)(q36;p13)
Authors
- D. Weichenhan
- A. Riedel
- E. Sollier
- U.H. Toprak
- J. Hey
- K.H. Breuer
- J.A. Wierzbinska
- A. Touzart
- P. Lutsik
- M. Bähr
- A. Östlund
- T. Nilsson
- S. Jacobsson
- A. Waraky
- Y.L. Behrens
- G. Göhring
- B. Schlegelberger
- C. Steinek
- H. Harz
- H. Leonhardt
- A. Dolnik
- D. Reinhardt
- L. Bullinger
- L. Palmqvist
- D.B. Lipka
- C. Plass
Journal
- Blood Advances
Citation
- Blood Adv 8 (19): 5100-5111
Abstract
Acute myeloid leukemia (AML) with the t(7;12)(q36;p13) translocation occurs only in very young children and has a poor clinical outcome. The expected oncofusion between breakpoint partners (MNX1 and ETV6) has only been reported in a subset of cases. However, a universal feature is the strong transcript and protein expression of MNX1, a homeobox transcription factor that is normally not expressed in hematopoietic cells. Here, we map the translocation breakpoints on chromosomes 7 and 12 in affected patients to a region proximal to MNX1 and either introns 1 or 2 of ETV6. The frequency of MNX1 overexpression in pediatric AML (n=1556, own and published data) is 2.4% and occurs predominantly in t(7;12)(q36;p13) AML. Chromatin interaction assays in a t(7;12)(q36;p13) iPSC cell line model unravel an enhancer-hijacking event that explains MNX1 overexpression in hematopoietic cells. Our data suggest that enhancer-hijacking may be a more widespread consequence of translocations where no oncofusion product was identified, including e.g. t(1;3) or t(4;12) AML.