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      DOT1L inhibition blocks multiple myeloma cell proliferation by suppressing IRF4-MYC signaling

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          Abstract

          Epigenetic alterations play an important role in the pathogenesis in multiple myeloma, but their biological and clinical relevance is not fully understood. Here, we show that DOT1L, which catalyzes methylation of histone H3 lysine 79, is required for myeloma cell survival. DOT1L expression levels were higher in monoclonal gammopathy of undetermined significance and smoldering multiple myeloma than in normal plasma cells. Treatment with a DOT1L inhibitor induced cell cycle arrest and apoptosis in myeloma cells, and strongly suppressed cell proliferation in vitro. The anti-myeloma effect of DOT1L inhibition was confirmed in a mouse xenograft model. Chromatin immunoprecipitation-sequencing and microarray analysis revealed that DOT1L inhibition downregulated histone H3 lysine 79 dimethylation and expression of IRF4-MYC signaling genes in myeloma cells. In addition, DOT1L inhibition upregulated genes associated with immune responses and interferon signaling. Myeloma cells with histone modifier mutations or lower IRF4/MYC expression were less sensitive to DOT1L inhibition, but with prolonged treatment, anti-proliferative effects were achieved in these cells. Our data suggest that DOT1L plays an essential role in the development of multiple myeloma and that DOT1L inhibition may provide new therapies for myeloma treatment.

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          Selective killing of mixed lineage leukemia cells by a potent small-molecule DOT1L inhibitor.

          Scott Daigle, Edward Olhava, Carly Therkelsen (2011)
          Mislocated enzymatic activity of DOT1L has been proposed as a driver of leukemogenesis in mixed lineage leukemia (MLL). The characterization of EPZ004777, a potent, selective inhibitor of DOT1L is reported. Treatment of MLL cells with the compound selectively inhibits H3K79 methylation and blocks expression of leukemogenic genes. Exposure of leukemic cells to EPZ004777 results in selective killing of those cells bearing the MLL gene translocation, with little effect on non-MLL-translocated cells. Finally, in vivo administration of EPZ004777 leads to extension of survival in a mouse MLL xenograft model. These results provide compelling support for DOT1L inhibition as a basis for targeted therapeutics against MLL. Copyright © 2011 Elsevier Inc. All rights reserved.
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            Potent inhibition of DOT1L as treatment of MLL-fusion leukemia.

            Scott Daigle, Edward Olhava, Carly Therkelsen (2013)
            Rearrangements of the MLL gene define a genetically distinct subset of acute leukemias with poor prognosis. Current treatment options are of limited effectiveness; thus, there is a pressing need for new therapies for this disease. Genetic and small molecule inhibitor studies have demonstrated that the histone methyltransferase DOT1L is required for the development and maintenance of MLL-rearranged leukemia in model systems. Here we describe the characterization of EPZ-5676, a potent and selective aminonucleoside inhibitor of DOT1L histone methyltransferase activity. The compound has an inhibition constant value of 80 pM, and demonstrates 37 000-fold selectivity over all other methyltransferases tested. In cellular studies, EPZ-5676 inhibited H3K79 methylation and MLL-fusion target gene expression and demonstrated potent cell killing that was selective for acute leukemia lines bearing MLL translocations. Continuous IV infusion of EPZ-5676 in a rat xenograft model of MLL-rearranged leukemia caused complete tumor regressions that were sustained well beyond the compound infusion period with no significant weight loss or signs of toxicity. EPZ-5676 is therefore a potential treatment of MLL-rearranged leukemia and is under clinical investigation.
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              Methylation of H3-lysine 79 is mediated by a new family of HMTases without a SET domain.

              Qin Feng, Hengbin Wang, Huck Ng (2002)
              The N-terminal tails of core histones are subjected to multiple covalent modifications, including acetylation, methylation, and phosphorylation. Similar to acetylation, histone methylation has emerged as an important player in regulating chromatin dynamics and gene activity. Histone methylation occurs on arginine and lysine residues and is catalyzed by two families of proteins, the protein arginine methyltransferase family and the SET-domain-containing methyltransferase family. Here, we report that lysine 79 (K79) of H3, located in the globular domain, can be methylated. K79 methylation occurs in a variety of organisms ranging from yeast to human. In budding yeast, K79 methylation is mediated by the silencing protein DOT1. Consistent with conservation of K79 methylation, DOT1 homologs can be found in a variety of eukaryotic organisms. We identified a human DOT1-like (DOT1L) protein and demonstrated that this protein possesses intrinsic H3-K79-specific histone methyltransferase (HMTase) activity in vitro and in vivo. Furthermore, we found that K79 methylation level is regulated throughout the cell cycle. Thus, our studies reveal a new methylation site and define a novel family of histone lysine methyltransferase.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Haematologica
                Journal ID (iso-abbrev): Haematologica
                Journal ID (hwp): haematol
                Journal ID (publisher-id): Haematologica
                Title: Haematologica
                Publisher: Ferrata Storti Foundation
                ISSN (Print): 0390-6078
                ISSN (Electronic): 1592-8721
                Publication date (Print): January 2019
                Publication date (Electronic preprint): 31 August 2018
                Volume: 104
                Issue: 1
                Pages: 155-165
                Affiliations
                [1 ]Department of Gastroenterology and Hepatology, Sapporo Medical University School of Medicine
                [2 ]Department of Molecular Biology, Sapporo Medical University School of Medicine
                [3 ]Department of Hematology, Japanese Red Cross Medical Center, Tokyo
                [4 ]Project for Cancer Epigenomics, Cancer Institute, Japanese Foundation for Cancer Research, Tokyo
                [5 ]Department of Medical Genome Sciences, Research Institute for Frontier Medicine and Sapporo Medical University School of Medicine, Japan
                Author notes
                Article
                Publisher ID: 1040155
                DOI: 10.3324/haematol.2018.191262
                PMC ID: 6312027
                PubMed ID: 30171029
                SO-VID: bfefac1c-afa1-483d-9c76-66a473619f8d
                Copyright © Copyright© 2019 Ferrata Storti Foundation
                License:

                Material published in Haematologica is covered by copyright. All rights are reserved to the Ferrata Storti Foundation. Use of published material is allowed under the following terms and conditions:

                https://creativecommons.org/licenses/by-nc/4.0/legalcode. Copies of published material are allowed for personal or internal use. Sharing published material for non-commercial purposes is subject to the following conditions:

                https://creativecommons.org/licenses/by-nc/4.0/legalcode, sect. 3. Reproducing and sharing published material for commercial purposes is not allowed without permission in writing from the publisher.

                History
                Date received : 15 February 2018
                Date accepted : 29 August 2018
                Categories
                Subject: Article
                Subject: Plasma Cell Disorders

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