Literature DB >> 15635450

Conditional MLL-CBP targets GMP and models therapy-related myeloproliferative disease.

Jing Wang1, Hiromi Iwasaki, Andrei Krivtsov, Phillip G Febbo, Aaron R Thorner, Patricia Ernst, Ema Anastasiadou, Jeffery L Kutok, Scott C Kogan, Sandra S Zinkel, Jill K Fisher, Jay L Hess, Todd R Golub, Scott A Armstrong, Koichi Akashi, Stanley J Korsmeyer.   

Abstract

Chromosomal translocations that fuse the mixed lineage leukemia (MLL) gene with multiple partners typify acute leukemias of infancy as well as therapy-related leukemias. We utilized a conditional knockin strategy to bypass the embryonic lethality caused by MLL-CBP expression and to assess the immediate effects of induced MLL-CBP expression on hematopoiesis. Within days of activating MLL-CBP, the fusion protein selectively expanded granulocyte/macrophage progenitors (GMP) and enhanced their self-renewal/proliferation. MLL-CBP altered the gene expression program of GMP, upregulating a subset of genes including Hox a9. Inhibition of Hox a9 expression by RNA interference demonstrated that MLL-CBP required Hox a9 for its enhanced cell expansion. Following exposure to sublethal gamma-irradiation or N-ethyl-N-nitrosourea (ENU), MLL-CBP mice developed myelomonocytic hyperplasia and progressed to fatal myeloproliferative disorders. These represented the spectrum of therapy-induced acute myelomonocytic leukemia/chronic myelomonocytic leukemia/myelodysplastic/myeloproliferative disorder similar to that seen in humans possessing the t(11;16). This model of MLL-CBP therapy-related myeloproliferative disease demonstrates the selectivity of this MLL fusion for GMP cells and its ability to initiate leukemogenesis in conjunction with cooperating mutations.

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Year:  2005        PMID: 15635450      PMCID: PMC545811          DOI: 10.1038/sj.emboj.7600521

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  43 in total

1.  MLL and CREB bind cooperatively to the nuclear coactivator CREB-binding protein.

Authors:  P Ernst; J Wang; M Huang; R H Goodman; S J Korsmeyer
Journal:  Mol Cell Biol       Date:  2001-04       Impact factor: 4.272

2.  The mll-AF9 gene fusion in mice controls myeloproliferation and specifies acute myeloid leukaemogenesis.

Authors:  C L Dobson; A J Warren; R Pannell; A Forster; I Lavenir; J Corral; A J Smith; T H Rabbitts
Journal:  EMBO J       Date:  1999-07-01       Impact factor: 11.598

3.  MLL-GAS7 transforms multipotent hematopoietic progenitors and induces mixed lineage leukemias in mice.

Authors:  Chi Wai So; Holger Karsunky; Emmanuelle Passegué; Antonio Cozzio; Irving L Weissman; Michael L Cleary
Journal:  Cancer Cell       Date:  2003-02       Impact factor: 31.743

4.  MLL translocations specify a distinct gene expression profile that distinguishes a unique leukemia.

Authors:  Scott A Armstrong; Jane E Staunton; Lewis B Silverman; Rob Pieters; Monique L den Boer; Mark D Minden; Stephen E Sallan; Eric S Lander; Todd R Golub; Stanley J Korsmeyer
Journal:  Nat Genet       Date:  2001-12-03       Impact factor: 38.330

5.  Chromatin-related properties of CBP fused to MLL generate a myelodysplastic-like syndrome that evolves into myeloid leukemia.

Authors:  C Lavau; C Du; M Thirman; N Zeleznik-Le
Journal:  EMBO J       Date:  2000-09-01       Impact factor: 11.598

6.  The amino terminus targets the mixed lineage leukemia (MLL) protein to the nucleolus, nuclear matrix and mitotic chromosomal scaffolds.

Authors:  C Caslini; A S Alarcòn; J L Hess; R Tanaka; K G Murti; A Biondi
Journal:  Leukemia       Date:  2000-11       Impact factor: 11.528

7.  Bethesda proposals for classification of nonlymphoid hematopoietic neoplasms in mice.

Authors:  Scott C Kogan; Jerrold M Ward; Miriam R Anver; Jules J Berman; Cory Brayton; Robert D Cardiff; John S Carter; Sherri de Coronado; James R Downing; Torgny N Fredrickson; Diana C Haines; Alan W Harris; Nancy Lee Harris; Hiroshi Hiai; Elaine S Jaffe; Ian C M MacLennan; Pier Paolo Pandolfi; Paul K Pattengale; Archibald S Perkins; R Mark Simpson; Mark S Tuttle; Joanne F Wong; Herbert C Morse
Journal:  Blood       Date:  2002-07-01       Impact factor: 22.113

8.  Classification, subtype discovery, and prediction of outcome in pediatric acute lymphoblastic leukemia by gene expression profiling.

Authors:  Eng-Juh Yeoh; Mary E Ross; Sheila A Shurtleff; W Kent Williams; Divyen Patel; Rami Mahfouz; Fred G Behm; Susana C Raimondi; Mary V Relling; Anami Patel; Cheng Cheng; Dario Campana; Dawn Wilkins; Xiaodong Zhou; Jinyan Li; Huiqing Liu; Ching-Hon Pui; William E Evans; Clayton Naeve; Limsoon Wong; James R Downing
Journal:  Cancer Cell       Date:  2002-03       Impact factor: 31.743

9.  Expression of a conditional AML1-ETO oncogene bypasses embryonic lethality and establishes a murine model of human t(8;21) acute myeloid leukemia.

Authors:  Masakazu Higuchi; Darin O'Brien; Parasakthy Kumaravelu; Noel Lenny; Eng-Juh Yeoh; James R Downing
Journal:  Cancer Cell       Date:  2002-02       Impact factor: 31.743

10.  Acute myeloid leukemia with MLL rearrangements: clinicobiological features, prognostic impact and value of flow cytometry in the detection of residual leukemic cells.

Authors:  L Muñoz; J F Nomdedéu; N Villamor; R Guardia; D Colomer; J M Ribera; J P Torres; J J Berlanga; C Fernández; A Llorente; M P Queipo de Llano; J M Sánchez; S Brunet; J Sierra
Journal:  Leukemia       Date:  2003-01       Impact factor: 11.528
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  40 in total

Review 1.  Trithorax group proteins: switching genes on and keeping them active.

Authors:  Bernd Schuettengruber; Anne-Marie Martinez; Nicola Iovino; Giacomo Cavalli
Journal:  Nat Rev Mol Cell Biol       Date:  2011-11-23       Impact factor: 94.444

Review 2.  Two decades of leukemia oncoprotein epistasis: the MLL1 paradigm for epigenetic deregulation in leukemia.

Authors:  Bin E Li; Patricia Ernst
Journal:  Exp Hematol       Date:  2014-09-28       Impact factor: 3.084

Review 3.  Protein lysine acetylation by p300/CBP.

Authors:  Beverley M Dancy; Philip A Cole
Journal:  Chem Rev       Date:  2015-01-16       Impact factor: 60.622

4.  MN1-TEL myeloid oncoprotein expressed in multipotent progenitors perturbs both myeloid and lymphoid growth and causes T-lymphoid tumors in mice.

Authors:  Hiroyuki Kawagoe; Gerard C Grosveld
Journal:  Blood       Date:  2005-08-04       Impact factor: 22.113

5.  PU.1 is essential for MLL leukemia partially via crosstalk with the MEIS/HOX pathway.

Authors:  J Zhou; J Wu; B Li; D Liu; J Yu; X Yan; S Zheng; J Wang; L Zhang; L Zhang; F He; Q Li; A Chen; Y Zhang; X Zhao; Y Guan; X Zhao; J Yan; J Ni; M A Nobrega; B Löwenberg; R Delwel; P J M Valk; A Kumar; L Xie; D G Tenen; G Huang; Q-F Wang
Journal:  Leukemia       Date:  2013-12-26       Impact factor: 11.528

6.  Mouse models as tools to understand and study BCR-ABL1 diseases.

Authors:  Steffen Koschmieder; Mirle Schemionek
Journal:  Am J Blood Res       Date:  2011-06-07

7.  Mll fusions generated by Cre-loxP-mediated de novo translocations can induce lineage reassignment in tumorigenesis.

Authors:  Lesley F Drynan; Richard Pannell; Alan Forster; Nicole M M Chan; Florencia Cano; Angelika Daser; Terence H Rabbitts
Journal:  EMBO J       Date:  2005-08-11       Impact factor: 11.598

Review 8.  Molecular pathogenesis of MLL-associated leukemias.

Authors:  Mariko Eguchi; Minenori Eguchi-Ishimae; Mel Greaves
Journal:  Int J Hematol       Date:  2005-07       Impact factor: 2.490

9.  HOXA9 is required for survival in human MLL-rearranged acute leukemias.

Authors:  Joerg Faber; Andrei V Krivtsov; Matthew C Stubbs; Renee Wright; Tina N Davis; Marry van den Heuvel-Eibrink; Christian M Zwaan; Andrew L Kung; Scott A Armstrong
Journal:  Blood       Date:  2008-12-03       Impact factor: 22.113

10.  Phosphorylation of MLL by ATR is required for execution of mammalian S-phase checkpoint.

Authors:  Han Liu; Shugaku Takeda; Rakesh Kumar; Todd D Westergard; Eric J Brown; Tej K Pandita; Emily H-Y Cheng; James J-D Hsieh
Journal:  Nature       Date:  2010-09-05       Impact factor: 49.962
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