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Mutational synergy during leukemia induction remodels chromatin accessibility, histone modifications and three-dimensional DNA topology to alter gene expression

2021; Nature Portfolio; Volume: 53; Issue: 10 Linguagem: Inglês

10.1038/s41588-021-00925-9

1546-1718

Haiyang Yun, Nisha Narayan, Shabana Vohra, George Giotopoulos, Annalisa Mupo, Pedro Madrigal, Daniel Sasca, David Lara‐Astiaso, Sarah J. Horton, Shuchi Agrawal‐Singh, Eshwar Meduri, Faisal Basheer, Ludovica Marando, Malgorzata Gozdecka, Oliver M. Dovey, Aracely Castillo-Venzor, Xiaonan Wang, Paolo Gallipoli, Carsten Müller‐Tidow, Cameron S. Osborne, George S. Vassiliou, Brian J.P. Huntly,

Epigenetics and DNA Methylation

Altered transcription is a cardinal feature of acute myeloid leukemia (AML); however, exactly how mutations synergize to remodel the epigenetic landscape and rewire three-dimensional DNA topology is unknown. Here, we apply an integrated genomic approach to a murine allelic series that models the two most common mutations in AML: Flt3-ITD and Npm1c. We then deconvolute the contribution of each mutation to alterations of the epigenetic landscape and genome organization, and infer how mutations synergize in the induction of AML. Our studies demonstrate that Flt3-ITD signals to chromatin to alter the epigenetic environment and synergizes with mutations in Npm1c to alter gene expression and drive leukemia induction. These analyses also allow the identification of long-range cis-regulatory circuits, including a previously unknown superenhancer of Hoxa locus, as well as larger and more detailed gene-regulatory networks, driven by transcription factors including PU.1 and IRF8, whose importance we demonstrate through perturbation of network members. Mice bearing mutations in Flt3-ITD and Npm1c, which are commonly found in acute myeloid leukemia, are used to characterize the cooperative effects of these cancer drivers on the cellular epigenome and three-dimensional genome conformation during tumor development.