Loss-of-function mutations in the histone methyltransferase EZH2 promote chemotherapy resistance in AML

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作者
Julia M. Kempf
Sabrina Weser
Michael D. Bartoschek
Klaus H. Metzeler
Binje Vick
Tobias Herold
Kerstin Völse
Raphael Mattes
Manuela Scholz
Lucas E. Wange
Moreno Festini
Enes Ugur
Maike Roas
Oliver Weigert
Sebastian Bultmann
Heinrich Leonhardt
Gunnar Schotta
Wolfgang Hiddemann
Irmela Jeremias
Karsten Spiekermann
机构
[1] LMU Munich,Department of Medicine III, University Hospital
[2] LMU Munich,Department of Biology II and Center for Integrated Protein Science Munich (CIPSM), Human Biology and BioImaging
[3] Helmholtz Zentrum München,Research unit Apoptosis in Haematopoietic Stem Cells (AHS)
[4] Center for Human Genetics and Laboratory Diagnostic (AHC),Biomedical Center and Center for Integrated Protein Science Munich
[5] LMU Munich,Department of Pediatrics, Dr. von Hauner Children’s Hospital
[6] German Cancer Consortium (DKTK),Anthropology and Human Genomics, Department of Biology II
[7] LMU Munich,undefined
[8] Ludwig-Maximilians-University,undefined
[9] German Cancer Research Center (DKFZ),undefined
来源
Scientific Reports | / 11卷
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摘要
Chemotherapy resistance is the main impediment in the treatment of acute myeloid leukaemia (AML). Despite rapid advances, the various mechanisms inducing resistance development remain to be defined in detail. Here we report that loss-of-function mutations (LOF) in the histone methyltransferase EZH2 have the potential to confer resistance against the chemotherapeutic agent cytarabine. We identify seven distinct EZH2 mutations leading to loss of H3K27 trimethylation via multiple mechanisms. Analysis of matched diagnosis and relapse samples reveal a heterogenous regulation of EZH2 and a loss of EZH2 in 50% of patients. We confirm that loss of EZH2 induces resistance against cytarabine in the cell lines HEK293T and K562 as well as in a patient-derived xenograft model. Proteomics and transcriptomics analysis reveal that resistance is conferred by upregulation of multiple direct and indirect EZH2 target genes that are involved in apoptosis evasion, augmentation of proliferation and alteration of transmembrane transporter function. Our data indicate that loss of EZH2 results in upregulation of its target genes, providing the cell with a selective growth advantage, which mediates chemotherapy resistance.
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