T. Milan et al.
Foundation, Morris and Rosalind Goodman Family Foundation, Zeller Family Foundation, David H. Laidley Foundation, Drummond Foundation, and the Henry and Berenice Kaufmann Foundation (grant 705047-IMP-17; to BW, FB, SC), and the Leukemia & Lymphoma Society of Canada (to FB). Human leukemia specimens were collected and analyzed by the Banque de Cellules Leucémiques du Québec, supported by the Cancer
Research Network of the Fonds de Recherche du Québec en Santé.
Data-sharing statement
All sequencing data for this manuscript has been deposited in the Gene Expression Omnibus and is accessible through the fol- lowing accession numbers: GSE142579 and GSE70755.
References
1. Andersson AK, Ma J, Wang J, et al. The land- scape of somatic mutations in infant MLL- rearranged acute lymphoblastic leukemias. Nat Genet. 2015;47(4):330-337.
2. Saultz JN, Garzon R. Acute myeloid leukemia: a concise review. J Clin Med. 2016;5(3):33.
3. De Kouchkovsky I, Abdul-Hay M. Acute myeloid leukemia: a comprehensive review and 2016 update. Blood Cancer J. 2016;6(7):e441.
4. Bolouri H, Farrar JE, Triche T Jr, et al. The molecular landscape of pediatric acute myeloid leukemia reveals recurrent structur- al alterations and age-specific mutational interactions. Nat Med. 2018;24(1):103-112.
5. Cancer Genome Atlas Research Network. Genomic and epigenomic landscapes of adult de novo acute myeloid leukemia. N Engl J Med. 2013;368(22):2059-2074.
6. Winters AC, Bernt KM. MLL-Rearranged leukemias-an update on science and clinical approaches. Front Pediatr. 2017;5:4.
7. Sam TN, Kersey JH, Linabery AM, et al. MLL gene rearrangements in infant leukemia vary with age at diagnosis and selected demographic factors: a Children's Oncology Group (COG) study. Pediatr Blood Cancer. 2012;58(6):836-839.
8. Gu Y, Nakamura T, Alder H, et al. The t(4;11) chromosome translocation of human acute leukemias fuses the ALL-1 gene, relat- ed to Drosophila trithorax, to the AF-4 gene. Cell. 1992;71(4):701-708.
9. Tkachuk DC, Kohler S, Cleary ML. Involvement of a homolog of Drosophila trithorax by 11q23 chromosomal transloca- tions in acute leukemias. Cell. 1992;71(4): 691-700.
10. Hsieh JJ, Ernst P, Erdjument-Bromage H, Tempst P, Korsmeyer SJ. Proteolytic cleavage of MLL generates a complex of N- and C-ter- minal fragments that confers protein stabili- ty and subnuclear localization. Mol Cell Biol. 2003;23(1):186-194.
11. Slany RK. The molecular biology of mixed lineage leukemia. Haematologica. 2009;94 (7):984-993.
12. Meyer C, Burmeister T, Groger D, et al. The MLL recombinome of acute leukemias in 2017. Leukemia. 2018;32(2):273-284.
13. Bernt KM, Zhu N, Sinha AU, et al. MLL- rearranged leukemia is dependent on aber- rant H3K79 methylation by DOT1L. Cancer Cell. 2011;20(1):66-78.
14. Milne TA. Mouse models of MLL leukemia: recapitulating the human disease. Blood. 2017;129(16):2217-2223.
15. Barabe F, Gil L, Celton M, et al. Modeling human MLL-AF9 translocated acute myeloid leukemia from single donors reveals RET as a potential therapeutic target. Leukemia. 2017;31(5):1166-1176.
16.Barabe F, Kennedy JA, Hope KJ, Dick JE. Modeling the initiation and progression of human acute leukemia in mice. Science. 2007;316(5824):600-604.
17. Lagace K, Barabe F, Hebert J, Cellot S, Wilhelm BT. Identification of novel bio- markers for MLL-translocated acute myeloid leukemia. Exp Hematol. 2017;56:58-63.
18. Laouedj M, Tardif MR, Gil L, et al. S100A9 induces differentiation of acute myeloid leukemia cells through TLR4. Blood. 2017;129(14):1980-1990.
19. Buenrostro JD, Wu B, Chang HY, Greenleaf WJ. ATAC-seq: a method for assaying chro- matin accessibility genome-wide. Curr Protoc Mol Biol. 2015;109:21.
20. Lerdrup M, Johansen JV, Agrawal-Singh S, Hansen K. An interactive environment for agile analysis and visualization of ChIP- sequencing data. Nat Struct Mol Biol. 2016;23(4):349-357.
21. Thomas R, Thomas S, Holloway AK, Pollard KS. Features that define the best ChIP-seq peak calling algorithms. Brief Bioinform. 2017;18(3):441-450.
22. Khan A, Mathelier A. Intervene: a tool for intersection and visualization of multiple gene or genomic region sets. BMC Bioinformatics. 2017;18(1):287.
23. Shen L, Shao N, Liu X, Nestler E. ngs.plot: quick mining and visualization of next-gen- eration sequencing data by integrating genomic databases. BMC Genomics. 2014;15:284.
24.Corces MR, Buenrostro JD, Wu B, et al. Lineage-specific and single-cell chromatin accessibility charts human hematopoiesis and leukemia evolution. Nat Genet. 2016;48(10):1193-1203.
25. Subramanian A, Tamayo P, Mootha VK, et al. Gene set enrichment analysis: a knowl- edge-based approach for interpreting genome-wide expression profiles. Proc Natl Acad Sci U S A. 2005;102(43):15545-15550.
26.Love MI, Huber W, Anders S. Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2. Genome Biol. 2014;15(12):550.
27. Krueger F, Andrews SR. Bismark: a flexible aligner and methylation caller for bisulfite- Seq applications. Bioinformatics. 2011;27 (11):1571-1572.
28. Wang HQ, Tuominen LK, Tsai CJ. SLIM: a sliding linear model for estimating the pro- portion of true null hypotheses in datasets with dependence structures. Bioinformatics. 2011;27(2):225-231.
29. Pennacchio LA, Ahituv N, Moses AM, et al. In vivo enhancer analysis of human con- served non-coding sequences. Nature. 2006;444(7118):499-502.
30. Sharma A, Jyotsana N, Gabdoulline R, et al. MN1 is indispensable for MLL-rearranged acute myeloid leukemia. Haematologica. 2020;105(5):1294-1305.
31. Pabst C, Bergeron A, Lavallee VP, et al. GPR56 identifies primary human acute myeloid leukemia cells with high repopulat- ing potential in vivo. Blood. 2016;127(16): 2018-2027.
32. Heinz S, Benner C, Spann N, et al. Simple combinations of lineage-determining tran- scription factors prime cis-regulatory ele-
ments required for macrophage and B cell
identities. Mol Cell. 2010;38(4):576-589.
33. Roopra A. MAGICTRICKS: a tool for pre- dicting transcription factors and cofactors
that drive gene lists. bioRxiv. 2019:492744. 34. Ge SX, Jung D. ShinyGO: a graphical enrich- ment tool for ani-mals and plants. bioRxiv.
2018:315150.
35. Endoh Y, Chung YM, Clark IA, Geczy CL,
Hsu K. IL-10-dependent S100A8 gene induc- tion in monocytes/macrophages by double- stranded RNA. J Immunol. 2009;182(4): 2258-2268.
36. Tsukada J, Yoshida Y, Kominato Y, Auron PE. The CCAAT/enhancer (C/EBP) family of basic-leucine zipper (bZIP) transcription fac- tors is a multifaceted highly-regulated sys- tem for gene regulation. Cytokine. 2011;54(1):6-19.
37.Agger K, Miyagi S, Pedersen MT, et al. Jmjd2/Kdm4 demethylases are required for expression of Il3ra and survival of acute myeloid leukemia cells. Genes Dev. 2016;30(11):1278-1288.
38. Sandoval JE, Huang YH, Muise A, Goodell MA, Reich NO. Mutations in the DNMT3A DNA methyltransferase in acute myeloid leukemia patients cause both loss and gain of function and differential regulation by protein partners. J Biol Chem. 2019;294 (13):4898-4910.
39. Ley TJ, Ding L, Walter MJ, et al. DNMT3A mutations in acute myeloid leukemia. N Engl J Med. 2010;363(25):2424-2433.
40. Lee EJ, Luo J, Wilson JM, Shi H. Analyzing the cancer methylome through targeted bisulfite sequencing. Cancer Lett. 2013;340 (2):171-178.
41. Akalin A, Garrett-Bakelman FE, Kormaksson M, et al. Base-pair resolution DNA methylation sequencing reveals pro- foundly divergent epigenetic landscapes in acute myeloid leukemia. PLoS Genet. 2012;8(6):e1002781.
42. Celton M, Forest A, Gosse G, et al. Epigenetic regulation of GATA2 and its impact on normal karyotype acute myeloid leukemia. Leukemia. 2014;28(8):1617-1626.
43. Jung N, Dai B, Gentles AJ, Majeti R, Feinberg AP. An LSC epigenetic signature is largely mutation independent and implicates the HOXA cluster in AML pathogenesis. Nat Commun. 2015;6:8489.
44. Farlik M, Halbritter F, Muller F, et al. DNA methylation dynamics of human hematopoietic stem cell differentiation. Cell Stem Cell. 2016;19(6):808-822.
45. Hodges E, Molaro A, Dos Santos CO, et al. Directional DNA methylation changes and complex intermediate states accompany lin- eage specificity in the adult hematopoietic compartment. Mol Cell. 2011;44(1):17-28.
46. Mankuzhy NP, Walling E, Anderson B, Mody R. Cryptic ETV6-ABL1 fusion and MLL2 truncation revealed by integrative clinical sequencing in multiply relapsed acute lymphoblastic leukemia. J Pediatr Hematol Oncol. 2019;41(8):653-656.
47. Pomaznoy M, Ha B, Peters B. GOnet: a tool
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