Literature DB >> 15572690

Expression profiling of murine acute promyelocytic leukemia cells reveals multiple model-dependent progression signatures.

Matthew J Walter1, John S Park, Steven K M Lau, Xia Li, Andrew A Lane, Rakesh Nagarajan, William D Shannon, Timothy J Ley.   

Abstract

Leukemia results from the expansion of self-renewing hematopoietic cells that are thought to contain mutations that contribute to disease initiation and progression. Studies of the gene expression profiles of human acute myeloid leukemia samples has allowed their classification based on the presence of translocations and French-American-British subtypes, but it is not yet clear whether their molecular signatures reflect the initiating mutations or mutations acquired during progression. To begin to address this question, we examined the expression profiles of normal murine promyelocyte-enriched samples, nontransformed murine promyelocytes expressing human promyelocytic leukemia-retinoic acid receptor alpha (PML-RARalpha) fusion gene, and primary acute promyelocytic leukemia cells. The expression profile of nontransformed cells expressing PML-RARalpha was remarkably similar to that of wild-type promyelocytes. In contrast, the expression profiles of fully transformed cells from three acute promyelocytic leukemia model systems were all different, suggesting that the expression signature of acute promyelocytic leukemia cells reflects the genetic changes that contributed to progression. To further evaluate these progression events, we compared two high-penetrance acute promyelocytic leukemia models that both commonly acquire an interstitial deletion of chromosome 2 during progression. The two models exhibited distinct gene expression profiles, suggesting that the dominant molecular signatures of murine acute promyelocytic leukemia can be influenced by several independent progression events.

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Year:  2004        PMID: 15572690      PMCID: PMC533966          DOI: 10.1128/MCB.24.24.10882-10893.2004

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  34 in total

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Authors:  V G Tusher; R Tibshirani; G Chu
Journal:  Proc Natl Acad Sci U S A       Date:  2001-04-17       Impact factor: 11.205

2.  Expression profiling reveals fundamental biological differences in acute myeloid leukemia with isolated trisomy 8 and normal cytogenetics.

Authors:  K Virtaneva; F A Wright; S M Tanner; B Yuan; W J Lemon; M A Caligiuri; C D Bloomfield; A de La Chapelle ; R Krahe
Journal:  Proc Natl Acad Sci U S A       Date:  2001-01-30       Impact factor: 11.205

3.  Expression profiling of CD34+ hematopoietic stem/ progenitor cells reveals distinct subtypes of therapy-related acute myeloid leukemia.

Authors:  Zhijian Qian; Anthony A Fernald; Lucy A Godley; Richard A Larson; Michelle M Le Beau
Journal:  Proc Natl Acad Sci U S A       Date:  2002-11-04       Impact factor: 11.205

4.  STAT-3 activation is required for normal G-CSF-dependent proliferation and granulocytic differentiation.

Authors:  M L McLemore; S Grewal; F Liu; A Archambault; J Poursine-Laurent; J Haug; D C Link
Journal:  Immunity       Date:  2001-02       Impact factor: 31.745

5.  A bcr-3 isoform of RARalpha-PML potentiates the development of PML-RARalpha-driven acute promyelocytic leukemia.

Authors:  J L Pollock; P Westervelt; A K Kurichety; P G Pelicci; J L Grisolano; T J Ley
Journal:  Proc Natl Acad Sci U S A       Date:  1999-12-21       Impact factor: 11.205

6.  Neutrophil elastase is important for PML-retinoic acid receptor alpha activities in early myeloid cells.

Authors:  Andrew A Lane; Timothy J Ley
Journal:  Mol Cell Biol       Date:  2005-01       Impact factor: 4.272

7.  Recurring chromosomal abnormalities in leukemia in PML-RARA transgenic mice parallel human acute promyelocytic leukemia.

Authors:  Michelle M Le Beau; Sheila Bitts; Elizabeth M Davis; Scott C Kogan
Journal:  Blood       Date:  2002-04-15       Impact factor: 22.113

8.  Acute myeloid leukemias with reciprocal rearrangements can be distinguished by specific gene expression profiles.

Authors:  Claudia Schoch; Alexander Kohlmann; Susanne Schnittger; Benedikt Brors; Martin Dugas; Susanne Mergenthaler; Wolfgang Kern; Wolfgang Hiddemann; Roland Eils; Torsten Haferlach
Journal:  Proc Natl Acad Sci U S A       Date:  2002-07-08       Impact factor: 11.205

9.  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

10.  BCL-2 cooperates with promyelocytic leukemia retinoic acid receptor alpha chimeric protein (PMLRARalpha) to block neutrophil differentiation and initiate acute leukemia.

Authors:  S C Kogan; D E Brown; D B Shultz; B T Truong; V Lallemand-Breitenbach; M C Guillemin; E Lagasse; I L Weissman; J M Bishop
Journal:  J Exp Med       Date:  2001-02-19       Impact factor: 14.307
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  11 in total

1.  Reduced PU.1 expression causes myeloid progenitor expansion and increased leukemia penetrance in mice expressing PML-RARalpha.

Authors:  Matthew J Walter; John S Park; Rhonda E Ries; Steven K M Lau; Michael McLellan; Sara Jaeger; Richard K Wilson; Elaine R Mardis; Timothy J Ley
Journal:  Proc Natl Acad Sci U S A       Date:  2005-08-19       Impact factor: 11.205

2.  Chromatin modifications induced by PML-RARalpha repress critical targets in leukemogenesis as analyzed by ChIP-Chip.

Authors:  Claudia Hoemme; Abdul Peerzada; Gerhard Behre; Yipeng Wang; Michael McClelland; Kay Nieselt; Matthias Zschunke; Christine Disselhoff; Shuchi Agrawal; Fabienne Isken; Nicola Tidow; Wolfgang E Berdel; Hubert Serve; Carsten Müller-Tidow
Journal:  Blood       Date:  2007-11-16       Impact factor: 22.113

3.  MIR125B1 represses the degradation of the PML-RARA oncoprotein by an autophagy-lysosomal pathway in acute promyelocytic leukemia.

Authors:  Cheng-Wu Zeng; Zhen-Hua Chen; Xing-Ju Zhang; Bo-Wei Han; Kang-Yu Lin; Xiao-Juan Li; Pan-Pan Wei; Hua Zhang; Yangqiu Li; Yue-Qin Chen
Journal:  Autophagy       Date:  2014-07-18       Impact factor: 16.016

4.  Treatment-influenced associations of PML-RARα mutations, FLT3 mutations, and additional chromosome abnormalities in relapsed acute promyelocytic leukemia.

Authors:  Robert E Gallagher; Barry K Moser; Janis Racevskis; Xavier Poiré; Clara D Bloomfield; Andrew J Carroll; Rhett P Ketterling; Diane Roulston; Esther Schachter-Tokarz; Da-Cheng Zhou; I-Ming L Chen; Richard Harvey; Greg Koval; Dorie A Sher; James H Feusner; Martin S Tallman; Richard A Larson; Bayard L Powell; Frederick R Appelbaum; Elisabeth Paietta; Cheryl L Willman; Wendy Stock
Journal:  Blood       Date:  2012-06-25       Impact factor: 22.113

5.  The origin and evolution of mutations in acute myeloid leukemia.

Authors:  John S Welch; Timothy J Ley; Daniel C Link; Christopher A Miller; David E Larson; Daniel C Koboldt; Lukas D Wartman; Tamara L Lamprecht; Fulu Liu; Jun Xia; Cyriac Kandoth; Robert S Fulton; Michael D McLellan; David J Dooling; John W Wallis; Ken Chen; Christopher C Harris; Heather K Schmidt; Joelle M Kalicki-Veizer; Charles Lu; Qunyuan Zhang; Ling Lin; Michelle D O'Laughlin; Joshua F McMichael; Kim D Delehaunty; Lucinda A Fulton; Vincent J Magrini; Sean D McGrath; Ryan T Demeter; Tammi L Vickery; Jasreet Hundal; Lisa L Cook; Gary W Swift; Jerry P Reed; Patricia A Alldredge; Todd N Wylie; Jason R Walker; Mark A Watson; Sharon E Heath; William D Shannon; Nobish Varghese; Rakesh Nagarajan; Jacqueline E Payton; Jack D Baty; Shashikant Kulkarni; Jeffery M Klco; Michael H Tomasson; Peter Westervelt; Matthew J Walter; Timothy A Graubert; John F DiPersio; Li Ding; Elaine R Mardis; Richard K Wilson
Journal:  Cell       Date:  2012-07-20       Impact factor: 41.582

6.  PML-RARA can increase hematopoietic self-renewal without causing a myeloproliferative disease in mice.

Authors:  John S Welch; Wenlin Yuan; Timothy J Ley
Journal:  J Clin Invest       Date:  2011-04       Impact factor: 14.808

7.  Commonly dysregulated genes in murine APL cells.

Authors:  Wenlin Yuan; Jacqueline E Payton; Matthew S Holt; Daniel C Link; Mark A Watson; John F DiPersio; Timothy J Ley
Journal:  Blood       Date:  2006-09-28       Impact factor: 22.113

8.  Expression of a bcr-1 isoform of RARalpha-PML does not affect the penetrance of acute promyelocytic leukemia or the acquisition of an interstitial deletion on mouse chromosome 2.

Authors:  Matthew J Walter; Rhonda E Ries; Jon R Armstrong; John S Park; Elaine R Mardis; Timothy J Ley
Journal:  Blood       Date:  2006-09-28       Impact factor: 22.113

9.  Sequencing a mouse acute promyelocytic leukemia genome reveals genetic events relevant for disease progression.

Authors:  Lukas D Wartman; David E Larson; Zhifu Xiang; Li Ding; Ken Chen; Ling Lin; Patrick Cahan; Jeffery M Klco; John S Welch; Cheng Li; Jacqueline E Payton; Geoffrey L Uy; Nobish Varghese; Rhonda E Ries; Mieke Hoock; Daniel C Koboldt; Michael D McLellan; Heather Schmidt; Robert S Fulton; Rachel M Abbott; Lisa Cook; Sean D McGrath; Xian Fan; Adam F Dukes; Tammi Vickery; Joelle Kalicki; Tamara L Lamprecht; Timothy A Graubert; Michael H Tomasson; Elaine R Mardis; Richard K Wilson; Timothy J Ley
Journal:  J Clin Invest       Date:  2011-03-23       Impact factor: 14.808

10.  Applications of microarray technology to Acute Myelogenous Leukemia.

Authors:  Rashmi S Goswami; Mahadeo A Sukhai; Mariam Thomas; Patricia P Reis; Suzanne Kamel-Reid
Journal:  Cancer Inform       Date:  2008-12-22
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