Literature DB >> 31395602

Targeting PRMT1-mediated FLT3 methylation disrupts maintenance of MLL-rearranged acute lymphoblastic leukemia.

Yinghui Zhu1, Xin He1, Yi-Chun Lin2, Haojie Dong1, Lei Zhang3, Xianwei Chen4, Zhihao Wang5, Yudao Shen6, Min Li7, Hanying Wang1, Jie Sun1, Le Xuan Nguyen1, Han Zhang2, Wenjuan Jiang2, Yanzhong Yang5, Jianjun Chen8, Markus Müschen8, Chun-Wei Chen8, Marina Y Konopleva9, Weili Sun10, Jian Jin6, Nadia Carlesso1, Guido Marcucci1, Yun Luo2, Ling Li1.   

Abstract

Relapse remains the main cause of MLL-rearranged (MLL-r) acute lymphoblastic leukemia (ALL) treatment failure resulting from persistence of drug-resistant clones after conventional chemotherapy treatment or targeted therapy. Thus, defining mechanisms underlying MLL-r ALL maintenance is critical for developing effective therapy. PRMT1, which deposits an asymmetric dimethylarginine mark on histone/non-histone proteins, is reportedly overexpressed in various cancers. Here, we demonstrate elevated PRMT1 levels in MLL-r ALL cells and show that inhibition of PRMT1 significantly suppresses leukemic cell growth and survival. Mechanistically, we reveal that PRMT1 methylates Fms-like receptor tyrosine kinase 3 (FLT3) at arginine (R) residues 972 and 973 (R972/973), and its oncogenic function in MLL-r ALL cells is FLT3 methylation dependent. Both biochemistry and computational analysis demonstrate that R972/973 methylation could facilitate recruitment of adaptor proteins to FLT3 in a phospho-tyrosine (Y) residue 969 (Y969) dependent or independent manner. Cells expressing R972/973 methylation-deficient FLT3 exhibited more robust apoptosis and growth inhibition than did Y969 phosphorylation-deficient FLT3-transduced cells. We also show that the capacity of the type I PRMT inhibitor MS023 to inhibit leukemia cell viability parallels baseline FLT3 R972/973 methylation levels. Finally, combining FLT3 tyrosine kinase inhibitor PKC412 with MS023 treatment enhanced elimination of MLL-r ALL cells relative to PKC412 treatment alone in patient-derived mouse xenografts. These results indicate that abolishing FLT3 arginine methylation through PRMT1 inhibition represents a promising strategy to target MLL-r ALL cells.
© 2019 by The American Society of Hematology.

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Year:  2019        PMID: 31395602      PMCID: PMC6788006          DOI: 10.1182/blood.2019002457

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   25.476


  48 in total

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8.  PRMT1-mediated FLT3 arginine methylation promotes maintenance of FLT3-ITD+ acute myeloid leukemia.

Authors:  Xin He; Yinghui Zhu; Yi-Chun Lin; Min Li; Juan Du; Haojie Dong; Jie Sun; Lei Zhu; Hanying Wang; Zonghui Ding; Lei Zhang; Lianjun Zhang; Dandan Zhao; Zhihao Wang; Herman Wu; Han Zhang; Wenjuan Jiang; Yang Xu; Jian Jin; Yudao Shen; Jeff Perry; Xinyang Zhao; Bin Zhang; Songbai Liu; Sheng-Li Xue; Binghui Shen; Chun-Wei Chen; Jianjun Chen; Samer Khaled; Ya-Huei Kuo; Guido Marcucci; Yun Luo; Ling Li
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Review 9.  The Biology and Targeting of FLT3 in Pediatric Leukemia.

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10.  Expression of GADS enhances FLT3-induced mitogenic signaling.

Authors:  Rohit A Chougule; Eugenia Cordero; Sausan A Moharram; Kristian Pietras; Lars Rönnstrand; Julhash U Kazi
Journal:  Oncotarget       Date:  2016-03-22
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  8 in total

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2.  PRMT1 is a novel molecular therapeutic target for clear cell renal cell carcinoma.

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Review 3.  The Emerging Role of PRMT6 in Cancer.

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4.  Methylation of HBP1 by PRMT1 promotes tumor progression by regulating actin cytoskeleton remodeling.

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5.  Targeting OXPHOS de novo purine synthesis as the nexus of FLT3 inhibitor-mediated synergistic antileukemic actions.

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Journal:  Cell Death Dis       Date:  2022-09-23       Impact factor: 9.685

Review 7.  Histone methyltransferase and drug resistance in cancers.

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8.  PRMT1 Regulates EGFR and Wnt Signaling Pathways and Is a Promising Target for Combinatorial Treatment of Breast Cancer.

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  8 in total

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