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Literature DB >> 22957304

Cell cycle control in acute myeloid leukemia.

Dominik Schnerch¹, Jasmin Yalcintepe, Andrea Schmidts, Heiko Becker, Marie Follo, Monika Engelhardt, Ralph Wäsch.

Abstract

Acute myeloid leukemia (AML) is the result of a multistep transforming process of hematopoietic precursor cells (HPCs) which enables them to proceed through limitless numbers of cell cycles and to become resistant to cell death. Increased proliferation renders these cells vulnerable to acquiring mutations and may favor leukemic transformation. Here, we review how deregulated cell cycle control contributes to increased proliferation in AML and favors genomic instability, a prerequisite to confer selective advantages to particular clones in order to adapt and independently proliferate in the presence of a changing microenvironment. We discuss the connection between differentiation and proliferation with regard to leukemogenesis and outline the impact of specific alterations on response to therapy. Finally, we present examples, how a better understanding of cell cycle regulation and deregulation has already led to new promising therapeutic strategies.

Entities: Disease

Keywords: Acute myeloid leukemia (AML); cell cycle; differentiation; genetic instability; proliferation

Year: 2012 PMID： 22957304 PMCID： PMC3433102

Source DB: PubMed Journal: Am J Cancer Res ISSN： 2156-6976 Impact factor: 6.166

178 in total

1. A novel treatment strategy targeting Aurora kinases in acute myelogenous leukemia.

Authors: Takayuki Ikezoe; Jing Yang; Chie Nishioka; Taizo Tasaka; Ayuko Taniguchi; Yoshio Kuwayama; Naoki Komatsu; Kentaro Bandobashi; Kazuto Togitani; H Phillip Koeffler; Hirokuni Taguchi
Journal: Mol Cancer Ther Date: 2007-05-31 Impact factor: 6.261

Review 2. Hematopoietic cytokine receptor signaling.

Authors: S J Baker; S G Rane; E P Reddy
Journal: Oncogene Date: 2007-10-15 Impact factor: 9.867

3. Mitogen-activated protein kinase kinase inhibition enhances nuclear proapoptotic function of p53 in acute myelogenous leukemia cells.

Authors: Kensuke Kojima; Marina Konopleva; Ismael J Samudio; Vivian Ruvolo; Michael Andreeff
Journal: Cancer Res Date: 2007-04-01 Impact factor: 12.701

4. Overexpression of CXCR4 predicts adverse overall and event-free survival in patients with unmutated FLT3 acute myeloid leukemia with normal karyotype.

Authors: Sergej Konoplev; Georgios Z Rassidakis; Elihu Estey; Hagop Kantarjian; Chrysoula I Liakou; Xuelin Huang; Lianchun Xiao; Michael Andreeff; Marina Konopleva; L Jeffrey Medeiros
Journal: Cancer Date: 2007-03-15 Impact factor: 6.860

Review 5. CDC25 phosphatases in cancer cells: key players? Good targets?

Authors: Rose Boutros; Valérie Lobjois; Bernard Ducommun
Journal: Nat Rev Cancer Date: 2007-07 Impact factor: 60.716

6. Pim2 complements Flt3 wild-type receptor in hematopoietic progenitor cell transformation.

Authors: S Agrawal; S Koschmieder; N Bäumer; N G P Reddy; W E Berdel; C Müller-Tidow; H Serve
Journal: Leukemia Date: 2007-10-18 Impact factor: 11.528

7. The ubiquitin ligase APC(Cdh1) is required to maintain genome integrity in primary human cells.

Authors: D Engelbert; D Schnerch; A Baumgarten; R Wäsch
Journal: Oncogene Date: 2007-08-13 Impact factor: 9.867

8. Leukemic blasts in transformed JAK2-V617F-positive myeloproliferative disorders are frequently negative for the JAK2-V617F mutation.

Authors: Alexandre Theocharides; Marjorie Boissinot; François Girodon; Richard Garand; Soon-Siong Teo; Eric Lippert; Pascaline Talmant; Andre Tichelli; Sylvie Hermouet; Radek C Skoda
Journal: Blood Date: 2007-03-15 Impact factor: 22.113

9. Pharmacologic inhibition of CDK4/6: mechanistic evidence for selective activity or acquired resistance in acute myeloid leukemia.

Authors: Lisheng Wang; Jie Wang; Bradley W Blaser; Anne-Marie Duchemin; Donna F Kusewitt; Tom Liu; Michael A Caligiuri; Roger Briesewitz
Journal: Blood Date: 2007-05-30 Impact factor: 22.113

10. 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

24 in total

1. A mathematical model of subpopulation kinetics for the deconvolution of leukaemia heterogeneity.

Authors: María Fuentes-Garí; Ruth Misener; David García-Munzer; Eirini Velliou; Michael C Georgiadis; Margaritis Kostoglou; Efstratios N Pistikopoulos; Nicki Panoskaltsis; Athanasios Mantalaris
Journal: J R Soc Interface Date: 2015-07-06 Impact factor: 4.118

2. APC/C^Cdh1 regulates the balance between maintenance and differentiation of hematopoietic stem and progenitor cells.

Authors: Daniel Ewerth; Stefanie Kreutmair; Andrea Schmidts; Gabriele Ihorst; Marie Follo; Dagmar Wider; Julia Felthaus; Julia Schüler; Justus Duyster; Anna Lena Illert; Monika Engelhardt; Ralph Wäsch
Journal: Cell Mol Life Sci Date: 2018-10-24 Impact factor: 9.261

3. Targeting DNA hypermethylation: Computational modeling of DNA demethylation treatment of acute myeloid leukemia.

Authors: Jens Przybilla; Lydia Hopp; Michael Lübbert; Markus Loeffler; Joerg Galle
Journal: Epigenetics Date: 2017-10-06 Impact factor: 4.528

Review 4. The Role of the APC/C and Its Coactivators Cdh1 and Cdc20 in Cancer Development and Therapy.

Authors: Christine Greil; Monika Engelhardt; Ralph Wäsch
Journal: Front Genet Date: 2022-06-27 Impact factor: 4.772

5. SETD2 mutations confer chemoresistance in acute myeloid leukemia partly through altered cell cycle checkpoints.

Authors: Yunzhu Dong; Xinghui Zhao; Xiaomin Feng; Yile Zhou; Xiaomei Yan; Ya Zhang; Jiachen Bu; Di Zhan; Yoshihiro Hayashi; Yue Zhang; Zefeng Xu; Rui Huang; Jieyu Wang; Taoran Zhao; Zhijian Xiao; Zhenyu Ju; Paul R Andreassen; Qian-Fei Wang; Wei Chen; Gang Huang
Journal: Leukemia Date: 2019-04-09 Impact factor: 11.528