Literature DB >> 16051740

Runx1 deficiency predisposes mice to T-lymphoblastic lymphoma.

Mondira Kundu1, Sheila Compton, Lisa Garrett-Beal, Terryl Stacy, Matthew F Starost, Michael Eckhaus, Nancy A Speck, P Paul Liu.   

Abstract

Chromosomal rearrangements affecting RUNX1 and CBFB are common in acute leukemias. These mutations result in the expression of fusion proteins that act dominant-negatively to suppress the normal function of the Runt-related transcription factor 1 (RUNX)/core binding factor beta (CBFbeta) complexes. In addition, loss-of-function mutations in Runt-related transcription factor 1 (RUNX1) have been identified in sporadic cases of acute myeloid leukemia (AML) and in association with the familial platelet disorder with propensity to develop AML (FPD/AML). In order to examine the hypothesis that decreased gene dosage of RUNX1 may be a critical event in the development of leukemia, we treated chimeric mice generated from Runx1(lacZ/lacZ) embryonic stem (ES) cells that have homozygous disruption of the Runx1 gene with N-ethyl-N-nitrosourea (ENU). We observed an increased incidence of T-lymphoblastic lymphoma in Runx1(lacZ/lacZ) compared with wild-type chimeras and confirmed that the tumors were of ES-cell origin. Our results therefore suggest that deficiency of Runx1 can indeed predispose mice to hematopoietic malignancies.

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Year:  2005        PMID: 16051740      PMCID: PMC1459843          DOI: 10.1182/blood-2005-04-1447

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  17 in total

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Journal:  Blood       Date:  2000-10-15       Impact factor: 22.113

2.  Production of homozygous mutant ES cells with a single targeting construct.

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Journal:  Mol Cell Biol       Date:  1992-05       Impact factor: 4.272

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Authors:  L H Castilla; C Wijmenga; Q Wang; T Stacy; N A Speck; M Eckhaus; M Marín-Padilla; F S Collins; A Wynshaw-Boris; P P Liu
Journal:  Cell       Date:  1996-11-15       Impact factor: 41.582

4.  Haploinsufficiency of CBFA2 causes familial thrombocytopenia with propensity to develop acute myelogenous leukaemia.

Authors:  W J Song; M G Sullivan; R D Legare; S Hutchings; X Tan; D Kufrin; J Ratajczak; I C Resende; C Haworth; R Hock; M Loh; C Felix; D C Roy; L Busque; D Kurnit; C Willman; A M Gewirtz; N A Speck; J H Bushweller; F P Li; K Gardiner; M Poncz; J M Maris; D G Gilliland
Journal:  Nat Genet       Date:  1999-10       Impact factor: 38.330

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Authors:  Q Wang; T Stacy; M Binder; M Marin-Padilla; A H Sharpe; N A Speck
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6.  In vitro analyses of known and novel RUNX1/AML1 mutations in dominant familial platelet disorder with predisposition to acute myelogenous leukemia: implications for mechanisms of pathogenesis.

Authors:  Joëlle Michaud; Feng Wu; Motomi Osato; Gregory M Cottles; Masatoshi Yanagida; Norio Asou; Katsuya Shigesada; Yoshiaki Ito; Kathleen F Benson; Wendy H Raskind; Colette Rossier; Stylianos E Antonarakis; Sara Israels; Archie McNicol; Harvey Weiss; Marshall Horwitz; Hamish S Scott
Journal:  Blood       Date:  2002-02-15       Impact factor: 22.113

7.  A new translocation that rearranges the AML1 gene in a patient with T-cell acute lymphoblastic leukemia.

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Journal:  Oncogene       Date:  2004-05-24       Impact factor: 9.867

Review 10.  Mechanism of leukemogenesis by the inv(16) chimeric gene CBFB/PEBP2B-MHY11.

Authors:  Katsuya Shigesada; Bart van de Sluis; P Paul Liu
Journal:  Oncogene       Date:  2004-05-24       Impact factor: 9.867
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  20 in total

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Authors:  Hongfang Wang; James Zou; Bo Zhao; Eric Johannsen; Todd Ashworth; Hoifung Wong; Warren S Pear; Jonathan Schug; Stephen C Blacklow; Kelly L Arnett; Bradley E Bernstein; Elliott Kieff; Jon C Aster
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Review 3.  Mouse models of diseases of megakaryocyte and platelet homeostasis.

Authors:  Catherine L Carmichael; Warren S Alexander
Journal:  Mamm Genome       Date:  2011-06-11       Impact factor: 2.957

4.  T cell acute lymphoblastic leukemia arising from familial platelet disorder.

Authors:  Nahoko Nishimoto; Yoichi Imai; Koki Ueda; Masahiro Nakagawa; Akihito Shinohara; Motoshi Ichikawa; Yasuhito Nannya; Mineo Kurokawa
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5.  RUNX transcription factors: association with pediatric asthma and modulated by maternal smoking.

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6.  Development of multilineage adult hematopoiesis in the zebrafish with a runx1 truncation mutation.

Authors:  Raman Sood; Milton A English; Christiane L Belele; Hao Jin; Kevin Bishop; Rebecca Haskins; Mary Cathleen McKinney; Jagman Chahal; Brant M Weinstein; Zilong Wen; P Paul Liu
Journal:  Blood       Date:  2010-02-12       Impact factor: 22.113

7.  RUNX1 is required for oncogenic Myb and Myc enhancer activity in T-cell acute lymphoblastic leukemia.

Authors:  AHyun Choi; Anuradha Illendula; John A Pulikkan; Justine E Roderick; Jessica Tesell; Jun Yu; Nicole Hermance; Lihua Julie Zhu; Lucio H Castilla; John H Bushweller; Michelle A Kelliher
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8.  Genome-wide DNA methylation patterns in naive CD4+ T cells from patients with primary Sjögren's syndrome.

Authors:  Nezam Altorok; Patrick Coit; Travis Hughes; Kristi A Koelsch; Donald U Stone; Astrid Rasmussen; Lida Radfar; R Hal Scofield; Kathy L Sivils; A Darise Farris; Amr H Sawalha
Journal:  Arthritis Rheumatol       Date:  2014-03       Impact factor: 10.995

9.  PU.1 activation relieves GATA-1-mediated repression of Cebpa and Cbfb during leukemia differentiation.

Authors:  Pavel Burda; Nikola Curik; Juraj Kokavec; Petra Basova; Dana Mikulenkova; Arthur I Skoultchi; Jiri Zavadil; Tomas Stopka
Journal:  Mol Cancer Res       Date:  2009-10-13       Impact factor: 5.852

10.  STAT5 is essential for IL-7-mediated viability, growth, and proliferation of T-cell acute lymphoblastic leukemia cells.

Authors:  Daniel Ribeiro; Alice Melão; Ruben van Boxtel; Cristina I Santos; Ana Silva; Milene C Silva; Bruno A Cardoso; Paul J Coffer; João T Barata
Journal:  Blood Adv       Date:  2018-09-11
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