Author
Listed:
- Yi Zhang
(University of Colorado School of Medicine)
- Yiran Guo
(The University of North Carolina School of Medicine)
- Sheryl M. Gough
(National Cancer Institute, NIH)
- Jinyong Zhang
(University of Colorado School of Medicine)
- Kendra R. Vann
(University of Colorado School of Medicine)
- Kuai Li
(Van Andel Research Institute)
- Ling Cai
(The University of North Carolina School of Medicine)
- Xiaobing Shi
(Van Andel Research Institute)
- Peter D. Aplan
(National Cancer Institute, NIH)
- Gang Greg Wang
(The University of North Carolina School of Medicine)
- Tatiana G. Kutateladze
(University of Colorado School of Medicine)
Abstract
Chromosomal NUP98-PHF23 translocation is associated with an aggressive form of acute myeloid leukemia (AML) and poor survival rate. Here, we report the molecular mechanisms by which NUP98-PHF23 recognizes the histone mark H3K4me3 and is inhibited by small molecule compounds, including disulfiram that directly targets the PHD finger of PHF23 (PHF23PHD). Our data support a critical role for the PHD fingers of NUP98-PHF23, and related NUP98-KDM5A and NUP98-BPTF fusions in driving leukemogenesis, and demonstrate that blocking this interaction in NUP98-PHF23 expressing AML cells leads to cell death through necrotic and late apoptosis pathways. An overlap of NUP98-KDM5A oncoprotein binding sites and H3K4me3-positive loci at the Hoxa/b gene clusters and Meis1 in ChIP-seq, together with NMR analysis of the H3K4me3-binding sites of the PHD fingers from PHF23, KDM5A and BPTF, suggests a common PHD finger-dependent mechanism that promotes leukemogenesis by this type of NUP98 fusions. Our findings highlight the direct correlation between the abilities of NUP98-PHD finger fusion chimeras to associate with H3K4me3-enriched chromatin and leukemic transformation.
Suggested Citation
Yi Zhang & Yiran Guo & Sheryl M. Gough & Jinyong Zhang & Kendra R. Vann & Kuai Li & Ling Cai & Xiaobing Shi & Peter D. Aplan & Gang Greg Wang & Tatiana G. Kutateladze, 2020.
"Mechanistic insights into chromatin targeting by leukemic NUP98-PHF23 fusion,"
Nature Communications, Nature, vol. 11(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17098-4
DOI: 10.1038/s41467-020-17098-4
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