Literature DB >> 22895178

Cistrome plasticity and mechanisms of cistrome reprogramming.

Ivan Garcia-Bassets1, Dong Wang.   

Abstract

Mammalian genomes contain thousands of cis-regulatory elements for each transcription factor (TF), but TFs only occupy a relatively small subset referred to as cistrome. Recent studies demonstrate that a TF cistrome might differ among different organisms, tissue types and individuals. In a cell, a TF cistrome might differ among different physiological states, pathological stages and between physiological and pathological conditions. It is, therefore, remarkable how highly plastic these binding profiles are, and how massively they can be reprogrammed in rapid response to intra/extracellular variations and during cell identity transitions and evolution. Biologically, cistrome reprogramming events tend to be followed by changes in transcriptional outputs, thus serving as transformative mechanisms to synchronically alter the biology of the cell. In this review, we discuss the molecular basis of cistrome plasticity and attempt to integrate the different mechanisms and biological conditions associated with cistrome reprogramming. Emerging data suggest that, when altered, these reprogramming events might be linked to tumor development and/or progression, which is a radical conceptual change in our mechanistic understanding of cancer and, potentially, other diseases.

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Year:  2012        PMID: 22895178      PMCID: PMC3466519          DOI: 10.4161/cc.21281

Source DB:  PubMed          Journal:  Cell Cycle        ISSN: 1551-4005            Impact factor:   4.534


  130 in total

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Review 2.  Genome-wide transcription and the implications for genomic organization.

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Journal:  Clin Genet       Date:  2000-04       Impact factor: 4.438

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Journal:  PLoS One       Date:  2009-08-11       Impact factor: 3.240

5.  Androgen receptor regulates a distinct transcription program in androgen-independent prostate cancer.

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Journal:  Cell       Date:  2009-07-23       Impact factor: 41.582

Review 6.  Cistromics of hormone-dependent cancer.

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Journal:  Endocr Relat Cancer       Date:  2009-04-15       Impact factor: 5.678

7.  Growth factor stimulation induces a distinct ER(alpha) cistrome underlying breast cancer endocrine resistance.

Authors:  Mathieu Lupien; Clifford A Meyer; Shannon T Bailey; Jérôme Eeckhoute; Jennifer Cook; Thomas Westerling; Xiaoyang Zhang; Jason S Carroll; Daniel R Rhodes; X Shirley Liu; Myles Brown
Journal:  Genes Dev       Date:  2010-10-01       Impact factor: 11.361

8.  The transcriptional landscape of the mammalian genome.

Authors:  P Carninci; T Kasukawa; S Katayama; J Gough; M C Frith; N Maeda; R Oyama; T Ravasi; B Lenhard; C Wells; R Kodzius; K Shimokawa; V B Bajic; S E Brenner; S Batalov; A R R Forrest; M Zavolan; M J Davis; L G Wilming; V Aidinis; J E Allen; A Ambesi-Impiombato; R Apweiler; R N Aturaliya; T L Bailey; M Bansal; L Baxter; K W Beisel; T Bersano; H Bono; A M Chalk; K P Chiu; V Choudhary; A Christoffels; D R Clutterbuck; M L Crowe; E Dalla; B P Dalrymple; B de Bono; G Della Gatta; D di Bernardo; T Down; P Engstrom; M Fagiolini; G Faulkner; C F Fletcher; T Fukushima; M Furuno; S Futaki; M Gariboldi; P Georgii-Hemming; T R Gingeras; T Gojobori; R E Green; S Gustincich; M Harbers; Y Hayashi; T K Hensch; N Hirokawa; D Hill; L Huminiecki; M Iacono; K Ikeo; A Iwama; T Ishikawa; M Jakt; A Kanapin; M Katoh; Y Kawasawa; J Kelso; H Kitamura; H Kitano; G Kollias; S P T Krishnan; A Kruger; S K Kummerfeld; I V Kurochkin; L F Lareau; D Lazarevic; L Lipovich; J Liu; S Liuni; S McWilliam; M Madan Babu; M Madera; L Marchionni; H Matsuda; S Matsuzawa; H Miki; F Mignone; S Miyake; K Morris; S Mottagui-Tabar; N Mulder; N Nakano; H Nakauchi; P Ng; R Nilsson; S Nishiguchi; S Nishikawa; F Nori; O Ohara; Y Okazaki; V Orlando; K C Pang; W J Pavan; G Pavesi; G Pesole; N Petrovsky; S Piazza; J Reed; J F Reid; B Z Ring; M Ringwald; B Rost; Y Ruan; S L Salzberg; A Sandelin; C Schneider; C Schönbach; K Sekiguchi; C A M Semple; S Seno; L Sessa; Y Sheng; Y Shibata; H Shimada; K Shimada; D Silva; B Sinclair; S Sperling; E Stupka; K Sugiura; R Sultana; Y Takenaka; K Taki; K Tammoja; S L Tan; S Tang; M S Taylor; J Tegner; S A Teichmann; H R Ueda; E van Nimwegen; R Verardo; C L Wei; K Yagi; H Yamanishi; E Zabarovsky; S Zhu; A Zimmer; W Hide; C Bult; S M Grimmond; R D Teasdale; E T Liu; V Brusic; J Quackenbush; C Wahlestedt; J S Mattick; D A Hume; C Kai; D Sasaki; Y Tomaru; S Fukuda; M Kanamori-Katayama; M Suzuki; J Aoki; T Arakawa; J Iida; K Imamura; M Itoh; T Kato; H Kawaji; N Kawagashira; T Kawashima; M Kojima; S Kondo; H Konno; K Nakano; N Ninomiya; T Nishio; M Okada; C Plessy; K Shibata; T Shiraki; S Suzuki; M Tagami; K Waki; A Watahiki; Y Okamura-Oho; H Suzuki; J Kawai; Y Hayashizaki
Journal:  Science       Date:  2005-09-02       Impact factor: 47.728

9.  Genome-wide analysis of transcription factor E2F1 mutant proteins reveals that N- and C-terminal protein interaction domains do not participate in targeting E2F1 to the human genome.

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Journal:  J Biol Chem       Date:  2011-02-10       Impact factor: 5.157

Review 10.  Genome-wide functions of PML-RARα in acute promyelocytic leukaemia.

Authors:  S Saeed; C Logie; H G Stunnenberg; J H A Martens
Journal:  Br J Cancer       Date:  2011-01-18       Impact factor: 7.640
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Journal:  Proc Natl Acad Sci U S A       Date:  2014-03-17       Impact factor: 11.205

2.  Presenilins regulate neurotrypsin gene expression and neurotrypsin-dependent agrin cleavage via cyclic AMP response element-binding protein (CREB) modulation.

Authors:  Angels Almenar-Queralt; Sonia N Kim; Christopher Benner; Cheryl M Herrera; David E Kang; Ivan Garcia-Bassets; Lawrence S B Goldstein
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3.  Dissecting the genomic activity of a transcriptional regulator by the integrative analysis of omics data.

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Review 4.  To bind or not to bind: Cistromic reprogramming in prostate cancer.

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5.  Decoding a signature-based model of transcription cofactor recruitment dictated by cardinal cis-regulatory elements in proximal promoter regions.

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