Literature DB >> 14647461

MLL-AF9 oncogene expression affects cell growth but not terminal differentiation and is downregulated during monocyte-macrophage maturation in AML-M5 THP-1 cells.

Andrea Pession1, Vincenzo Martino, Roberto Tonelli, Claudia Beltramini, Franco Locatelli, Giulia Biserni, Monica Franzoni, Francesea Freccero, Luca Montemurro, Laura Pattacini, Guido Paolucci.   

Abstract

The MLL-AF9 oncogene - one of the most frequent MLL/HRX/ALL-1 rearrangements found in infantile and therapy-related leukaemias - originates from t(9;11)(p22;q23) and is mainly associated with monocytic acute myeloid leukaemia (AML-M5; FAB-classification). Here, we investigated the MLL-AF9 function by means of an antisense phosphorothioate-oligodeoxyribonucleotide (MLL-AF9-PS-ODNas) using the THP-1 AML-M5 cell line carrying t(9;11). Having confirmed that MLL-AF9-PS-ODNas induces strong inhibition of THP-1 cell growth, but only a moderate increase in apoptosis, we found that MLL-AF9-PS-ODNas did not induce morpho-functional terminal differentiation or restore M-CSF-, G-CSF- or GM-CSF-induced differentiation. Moreover, THP-1 cells showed the same phenotype with/without MLL-AF9-PS-ODNas. In THP-1 cells differentiated to mature macrophage-like cells by PMA/TPA or ATRA, MLL-AF9 expression was downregulated. Thus, in the monocytic lineage, MLL-AF9 may be expressed only in early phases and can induce deregulated amplification in both nonmalignant and malignant cells, maintaining the monocytic phenotype without blocking final maturation. Our findings suggest that: (1) as well as directly promoting cell growth, MLL-AF9 may also indirectly determine phenotype; (2) other leukaemogenic mutations associated with MLL-AF9-related leukaemias should be searched for mainly in processes of resistance to apoptosis (where MLL-AF9 may play only a limited role) and differentiation blockage (where MLL-AF9 may play no role).

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Year:  2003        PMID: 14647461     DOI: 10.1038/sj.onc.1207125

Source DB:  PubMed          Journal:  Oncogene        ISSN: 0950-9232            Impact factor:   9.867


  14 in total

1.  Megakaryoblastic leukemia: a study on novel role of clinically significant long non-coding RNA signatures in megakaryocyte development during treatment with phorbol ester.

Authors:  Swati Dahariya; Sanjeev Raghuwanshi; Anjali Sangeeth; Mahesh Malleswarapu; Ravinder Kandi; Ravi Kumar Gutti
Journal:  Cancer Immunol Immunother       Date:  2021-04-23       Impact factor: 6.968

2.  RAS oncogene suppression induces apoptosis followed by more differentiated and less myelosuppressive disease upon relapse of acute myeloid leukemia.

Authors:  Won-Il Kim; Ilze Matise; Miechaleen D Diers; David A Largaespada
Journal:  Blood       Date:  2008-10-24       Impact factor: 22.113

3.  The presence of mature granulocytes/monocytes derived from leukemic cells in MLL-associated leukemia.

Authors:  Shoichi Kobayashi; Masato Obata; Maki Hagihara; Kenji Motohashi; Satomi Ito; Rika Ohshima; Rika Sakai; Atsuo Maruta; Heiwa Kanamori
Journal:  Int J Hematol       Date:  2009-11-20       Impact factor: 2.490

4.  Bimodal degradation of MLL by SCFSkp2 and APCCdc20 assures cell cycle execution: a critical regulatory circuit lost in leukemogenic MLL fusions.

Authors:  Han Liu; Emily H-Y Cheng; James J-D Hsieh
Journal:  Genes Dev       Date:  2007-10-01       Impact factor: 11.361

5.  Radotinib Induces Apoptosis of CD11b+ Cells Differentiated from Acute Myeloid Leukemia Cells.

Authors:  Sook-Kyoung Heo; Eui-Kyu Noh; Dong-Joon Yoon; Jae-Cheol Jo; Yunsuk Choi; SuJin Koh; Jin Ho Baek; Jae-Hoo Park; Young Joo Min; Hawk Kim
Journal:  PLoS One       Date:  2015-06-12       Impact factor: 3.240

6.  MLL-AF9 and MLL-AF4 oncofusion proteins bind a distinct enhancer repertoire and target the RUNX1 program in 11q23 acute myeloid leukemia.

Authors:  K H M Prange; A Mandoli; T Kuznetsova; S-Y Wang; A M Sotoca; A E Marneth; B A van der Reijden; H G Stunnenberg; J H A Martens
Journal:  Oncogene       Date:  2017-01-23       Impact factor: 9.867

7.  Chromatin conformation signatures of cellular differentiation.

Authors:  James Fraser; Mathieu Rousseau; Solomon Shenker; Maria A Ferraiuolo; Yoshihide Hayashizaki; Mathieu Blanchette; Josée Dostie
Journal:  Genome Biol       Date:  2009-04-19       Impact factor: 13.583

8.  The transcriptional network that controls growth arrest and differentiation in a human myeloid leukemia cell line.

Authors:  Harukazu Suzuki; Alistair R R Forrest; Erik van Nimwegen; Carsten O Daub; Piotr J Balwierz; Katharine M Irvine; Timo Lassmann; Timothy Ravasi; Yuki Hasegawa; Michiel J L de Hoon; Shintaro Katayama; Kate Schroder; Piero Carninci; Yasuhiro Tomaru; Mutsumi Kanamori-Katayama; Atsutaka Kubosaki; Altuna Akalin; Yoshinari Ando; Erik Arner; Maki Asada; Hiroshi Asahara; Timothy Bailey; Vladimir B Bajic; Denis Bauer; Anthony G Beckhouse; Nicolas Bertin; Johan Björkegren; Frank Brombacher; Erika Bulger; Alistair M Chalk; Joe Chiba; Nicole Cloonan; Adam Dawe; Josee Dostie; Pär G Engström; Magbubah Essack; Geoffrey J Faulkner; J Lynn Fink; David Fredman; Ko Fujimori; Masaaki Furuno; Takashi Gojobori; Julian Gough; Sean M Grimmond; Mika Gustafsson; Megumi Hashimoto; Takehiro Hashimoto; Mariko Hatakeyama; Susanne Heinzel; Winston Hide; Oliver Hofmann; Michael Hörnquist; Lukasz Huminiecki; Kazuho Ikeo; Naoko Imamoto; Satoshi Inoue; Yusuke Inoue; Ryoko Ishihara; Takao Iwayanagi; Anders Jacobsen; Mandeep Kaur; Hideya Kawaji; Markus C Kerr; Ryuichiro Kimura; Syuhei Kimura; Yasumasa Kimura; Hiroaki Kitano; Hisashi Koga; Toshio Kojima; Shinji Kondo; Takeshi Konno; Anders Krogh; Adele Kruger; Ajit Kumar; Boris Lenhard; Andreas Lennartsson; Morten Lindow; Marina Lizio; Cameron Macpherson; Norihiro Maeda; Christopher A Maher; Monique Maqungo; Jessica Mar; Nicholas A Matigian; Hideo Matsuda; John S Mattick; Stuart Meier; Sei Miyamoto; Etsuko Miyamoto-Sato; Kazuhiko Nakabayashi; Yutaka Nakachi; Mika Nakano; Sanne Nygaard; Toshitsugu Okayama; Yasushi Okazaki; Haruka Okuda-Yabukami; Valerio Orlando; Jun Otomo; Mikhail Pachkov; Nikolai Petrovsky; Charles Plessy; John Quackenbush; Aleksandar Radovanovic; Michael Rehli; Rintaro Saito; Albin Sandelin; Sebastian Schmeier; Christian Schönbach; Ariel S Schwartz; Colin A Semple; Miho Sera; Jessica Severin; Katsuhiko Shirahige; Cas Simons; George St Laurent; Masanori Suzuki; Takahiro Suzuki; Matthew J Sweet; Ryan J Taft; Shizu Takeda; Yoichi Takenaka; Kai Tan; Martin S Taylor; Rohan D Teasdale; Jesper Tegnér; Sarah Teichmann; Eivind Valen; Claes Wahlestedt; Kazunori Waki; Andrew Waterhouse; Christine A Wells; Ole Winther; Linda Wu; Kazumi Yamaguchi; Hiroshi Yanagawa; Jun Yasuda; Mihaela Zavolan; David A Hume; Takahiro Arakawa; Shiro Fukuda; Kengo Imamura; Chikatoshi Kai; Ai Kaiho; Tsugumi Kawashima; Chika Kawazu; Yayoi Kitazume; Miki Kojima; Hisashi Miura; Kayoko Murakami; Mitsuyoshi Murata; Noriko Ninomiya; Hiromi Nishiyori; Shohei Noma; Chihiro Ogawa; Takuma Sano; Christophe Simon; Michihira Tagami; Yukari Takahashi; Jun Kawai; Yoshihide Hayashizaki
Journal:  Nat Genet       Date:  2009-04-19       Impact factor: 38.330

9.  RNAi-mediated silencing of MLL-AF9 reveals leukemia-associated downstream targets and processes.

Authors:  Katrin K Fleischmann; Philipp Pagel; Irene Schmid; Adelbert A Roscher
Journal:  Mol Cancer       Date:  2014-02-11       Impact factor: 27.401

10.  Upregulation of CD11b and CD86 through LSD1 inhibition promotes myeloid differentiation and suppresses cell proliferation in human monocytic leukemia cells.

Authors:  Jianwu Fang; Haiyan Ying; Ting Mao; Yanjia Fang; Yuan Lu; He Wang; Irene Zang; Zhaofu Wang; Ying Lin; Mengxi Zhao; Xiao Luo; Zongyao Wang; Yan Zhang; Chao Zhang; Wei Xiao; Yan Wang; Wei Tan; Zhui Chen; Chris Lu; Peter Atadja; En Li; Kehao Zhao; Jianfeng Liu; Justin Gu
Journal:  Oncotarget       Date:  2017-06-19
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