Publications (7)50.55 Total impact
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Dataset: Blood-EZH2-suppl-2011
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Dataset: Blood-EZH2-suppl-2011
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Article: Cell of origin in AML: susceptibility to MN1-induced transformation is regulated by the MEIS1/AbdB-like HOX protein complex.
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ABSTRACT: Pathways defining susceptibility of normal cells to oncogenic transformation may be valuable therapeutic targets. We characterized the cell of origin and its critical pathways in MN1-induced leukemias. Common myeloid (CMP) but not granulocyte-macrophage progenitors (GMP) could be transformed by MN1. Complementation studies of CMP-signature genes in GMPs demonstrated that MN1-leukemogenicity required the MEIS1/AbdB-like HOX-protein complex. ChIP-sequencing identified common target genes of MN1 and MEIS1 and demonstrated identical binding sites for a large proportion of their chromatin targets. Transcriptional repression of MEIS1 targets in established MN1 leukemias demonstrated antileukemic activity. As MN1 relies on but cannot activate expression of MEIS1/AbdB-like HOX proteins, transcriptional activity of these genes determines cellular susceptibility to MN1-induced transformation and may represent a promising therapeutic target.Cancer cell 07/2011; 20(1):39-52. · 25.29 Impact Factor -
Article: Comprehensive analysis of mammalian miRNA* species and their role in myeloid cells.
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ABSTRACT: Processing of pre-miRNA through Dicer1 generates an miRNA duplex that consists of an miRNA and miRNA* strand. Despite the general view that miRNA*s have no functional role, we further investigated miRNA* species in 10 deep-sequencing libraries from mouse and human tissue. Comparisons of miRNA/miRNA* ratios across the miRNA sequence libraries revealed that 50% of the investigated miRNA duplexes exhibited a highly dominant strand. Conversely, 10% of miRNA duplexes showed a comparable expression of both strands, whereas the remaining 40% exhibited variable ratios across the examined libraries, as exemplified by miR-223/miR-223* in murine and human cell lines. Functional analyses revealed a regulatory role for miR-223* in myeloid progenitor cells, which implies an active role for both arms of the miR-223 duplex. This was further underscored by the demonstration that miR-223 and miR-223* targeted the insulin-like growth factor 1 receptor/phosphatidylinositol 3-kinase axis and that high miR-223* levels were associated with increased overall survival in patients with acute myeloid leukemia. Thus, we found a supporting role for miR-223* in differentiating myeloid cells in normal and leukemic cell states. The fact that the miR-223 duplex acts through both arms extends the complexity of miRNA-directed gene regulation of this myeloid key miRNA.Blood 05/2011; 118(12):3350-8. · 9.90 Impact Factor -
Article: Delineating domains and functions of NUP98 contributing to the leukemogenic activity of NUP98-HOX fusions.
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ABSTRACT: To determine the contribution of the common N-terminal truncation of NUP98 in NUP98-translocations resulting in acute myeloid leukemia, we have conducted a structure-function analysis of NUP98 in the context of NUP98-HOXA10HD, a novel, canonical NUP98-Hox fusion that significantly enhances the self-renewal capacity of hematopoietic stem cells and collaborates with Meis1 to induce AML in our mouse models. Our results identify that NUP98 functions by transcriptional activation likely by recruitment of CBP/p300 via its FG/GLFG repeats. In contrast, the functional interaction of NUP98 with Rae1 or the anaphase promoting complex appears non-essential for its role in NUP98-leukemogenic fusions.Leukemia research 12/2010; 35(4):545-50. · 2.36 Impact Factor -
Article: Somatic mutations at EZH2 Y641 act dominantly through a mechanism of selectively altered PRC2 catalytic activity, to increase H3K27 trimethylation.
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ABSTRACT: Next-generation sequencing of follicular lymphoma and diffuse-large B-cell lymphoma has revealed frequent somatic, heterozygous Y641 mutations in the histone methyltransferase EZH2. Heterozygosity and the presence of equal quantities of both mutant and wild-type mRNA and expressed protein suggest a dominant mode of action. Surprisingly, B-cell lymphoma cell lines and lymphoma samples harboring heterozygous EZH2(Y641) mutations have increased levels of histone H3 Lys-27-specific trimethylation (H3K27me3). Expression of EZH2(Y641F/N) mutants in cells with EZH2(WT) resulted in an increase of H3K27me3 levels in vivo. Structural modeling of EZH2(Y641) mutants suggests a "Tyr/Phe switch" model whereby structurally neutral, nontyrosine residues at position 641 would decrease affinity for unmethylated and monomethylated H3K27 substrates and potentially favor trimethylation. We demonstrate, using in vitro enzyme assays of reconstituted PRC2 complexes, that Y641 mutations result in a decrease in monomethylation and an increase in trimethylation activity of the enzyme relative to the wild-type enzyme. This represents the first example of a disease-associated gain-of-function mutation in a histone methyltransferase, whereby somatic EZH2 Y641 mutations in lymphoma act dominantly to increase, rather than decrease, histone methylation. The dominant mode of action suggests that allele-specific EZH2 inhibitors should be a future therapeutic strategy for this disease.Blood 12/2010; 117(8):2451-9. · 9.90 Impact Factor -
Article: Extrinsic signals determine myeloid-erythroid lineage switch in MN1 leukemia.
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ABSTRACT: Transcriptional control of hematopoietic lineage fate relies on the integration of many intra- and extracellular signals. To test whether the microenvironment impacts on leukemic phenotype, we exploited the MN1 model of acute myeloid leukemia under defined genetically modified microenvironmental conditions. The requirement of both FLT3 and c-Kit signaling for MN1 leukemias was investigated using retroviral infection of bone marrow cells from wild-type, c-Kit-mutated (W41), and Flt3-ligand knockout cells, and bone marrow transplantation into wild-type, c-Kit-mutated, or Flt3-ligand knockout mice. Genetic disruption of both FLT3 and c-Kit signaling in the MN1-leukemia model was dispensable for MN1-induced leukemogenesis. However, it induced a switch from myeloid to erythroid phenotype that was preserved, when FLT3 signaling was restored by secondary transplantation of leukemic cells into wild-type recipients. Our findings underscore the importance of microenvironmental signals for lineage choice in leukemia and identify signals that are important in myeloid-erythroid lineage decisions.Experimental hematology 03/2010; 38(3):174-9. · 3.11 Impact Factor
Top co-authors
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- Blood (2)
- Experimental hematology (1)
- Leukemia research (1)
- Cancer cell (1)
Institutions
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2011
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Universität Ulm
- Department of Internal Medicine
Ulm, Baden-Wuerttemberg, Germany
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2010
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Terry Fox Laboratory
Vancouver, British Columbia, Canada -
University of British Columbia - Vancouver
- Department of Pathology and Laboratory Medicine
Vancouver, British Columbia, Canada
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