Literature DB >> 26387865

MYC Disrupts the Circadian Clock and Metabolism in Cancer Cells.

Brian J Altman1, Annie L Hsieh2, Arjun Sengupta3, Saikumari Y Krishnanaiah3, Zachary E Stine1, Zandra E Walton1, Arvin M Gouw1, Anand Venkataraman4, Bo Li1, Pankuri Goraksha-Hicks5, Sharon J Diskin6, David I Bellovin7, M Celeste Simon1, Jeffrey C Rathmell8, Mitchell A Lazar9, John M Maris6, Dean W Felsher7, John B Hogenesch4, Aalim M Weljie10, Chi V Dang11.   

Abstract

The MYC oncogene encodes MYC, a transcription factor that binds the genome through sites termed E-boxes (5'-CACGTG-3'), which are identical to the binding sites of the heterodimeric CLOCK-BMAL1 master circadian transcription factor. Hence, we hypothesized that ectopic MYC expression perturbs the clock by deregulating E-box-driven components of the circadian network in cancer cells. We report here that deregulated expression of MYC or N-MYC disrupts the molecular clock in vitro by directly inducing REV-ERBα to dampen expression and oscillation of BMAL1, and this could be rescued by knockdown of REV-ERB. REV-ERBα expression predicts poor clinical outcome for N-MYC-driven human neuroblastomas that have diminished BMAL1 expression, and re-expression of ectopic BMAL1 in neuroblastoma cell lines suppresses their clonogenicity. Further, ectopic MYC profoundly alters oscillation of glucose metabolism and perturbs glutaminolysis. Our results demonstrate an unsuspected link between oncogenic transformation and circadian and metabolic dysrhythmia, which we surmise to be advantageous for cancer.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26387865      PMCID: PMC4818967          DOI: 10.1016/j.cmet.2015.09.003

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  49 in total

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2.  Targeted profiling: quantitative analysis of 1H NMR metabolomics data.

Authors:  Aalim M Weljie; Jack Newton; Pascal Mercier; Erin Carlson; Carolyn M Slupsky
Journal:  Anal Chem       Date:  2006-07-01       Impact factor: 6.986

Review 3.  Crosstalk between components of circadian and metabolic cycles in mammals.

Authors:  Gad Asher; Ueli Schibler
Journal:  Cell Metab       Date:  2011-02-02       Impact factor: 27.287

4.  JTK_CYCLE: an efficient nonparametric algorithm for detecting rhythmic components in genome-scale data sets.

Authors:  Michael E Hughes; John B Hogenesch; Karl Kornacker
Journal:  J Biol Rhythms       Date:  2010-10       Impact factor: 3.182

5.  Integrative genomics identifies distinct molecular classes of neuroblastoma and shows that multiple genes are targeted by regional alterations in DNA copy number.

Authors:  Qun Wang; Sharon Diskin; Eric Rappaport; Edward Attiyeh; Yael Mosse; Daniel Shue; Eric Seiser; Jayanti Jagannathan; Suzanne Shusterman; Manisha Bansal; Deepa Khazi; Cynthia Winter; Erin Okawa; Gregory Grant; Avital Cnaan; Huaqing Zhao; Nai-Kong Cheung; William Gerald; Wendy London; Katherine K Matthay; Garrett M Brodeur; John M Maris
Journal:  Cancer Res       Date:  2006-06-15       Impact factor: 12.701

6.  Dual role of the CLOCK/BMAL1 circadian complex in transcriptional regulation.

Authors:  Roman V Kondratov; Rashmi K Shamanna; Anna A Kondratova; Victoria Y Gorbacheva; Marina P Antoch
Journal:  FASEB J       Date:  2006-01-25       Impact factor: 5.191

7.  The c-MYC oncoprotein, the NAMPT enzyme, the SIRT1-inhibitor DBC1, and the SIRT1 deacetylase form a positive feedback loop.

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8.  Feedback repression is required for mammalian circadian clock function.

Authors:  Trey K Sato; Rikuhiro G Yamada; Hideki Ukai; Julie E Baggs; Loren J Miraglia; Tetsuya J Kobayashi; David K Welsh; Steve A Kay; Hiroki R Ueda; John B Hogenesch
Journal:  Nat Genet       Date:  2006-02-12       Impact factor: 38.330

Review 9.  Circadian integration of metabolism and energetics.

Authors:  Joseph Bass; Joseph S Takahashi
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Authors:  Angela Relógio; Pal O Westermark; Thomas Wallach; Katja Schellenberg; Achim Kramer; Hanspeter Herzel
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  109 in total

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Journal:  Nat Rev Cancer       Date:  2015-10-15       Impact factor: 60.716

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Authors:  André S Bachmann; Dirk Geerts
Journal:  J Biol Chem       Date:  2018-11-07       Impact factor: 5.157

Review 3.  Interplay between Circadian Clock and Cancer: New Frontiers for Cancer Treatment.

Authors:  Gabriele Sulli; Michael Tun Yin Lam; Satchidananda Panda
Journal:  Trends Cancer       Date:  2019-08-03

4.  Autophagy: clocking in for the night shift.

Authors:  Rebekah C Brooks; Chi V Dang
Journal:  EMBO J       Date:  2019-05-27       Impact factor: 11.598

Review 5.  Genetic and epigenomic mechanisms of mammalian circadian transcription.

Authors:  Romeo Papazyan; Yuxiang Zhang; Mitchell A Lazar
Journal:  Nat Struct Mol Biol       Date:  2016-12-06       Impact factor: 15.369

Review 6.  WNT Takes Two to Tango: Molecular Links between the Circadian Clock and the Cell Cycle in Adult Stem Cells.

Authors:  Toru Matsu-Ura; Sean R Moore; Christian I Hong
Journal:  J Biol Rhythms       Date:  2017-12-26       Impact factor: 3.182

7.  MYC inhibits the clock and supports proliferation.

Authors:  Anton Shostak; Axel Diernfellner; Michael Brunner
Journal:  Cell Cycle       Date:  2016-09-07       Impact factor: 4.534

8.  Nutrient-sensitive transcription factors TFEB and TFE3 couple autophagy and metabolism to the peripheral clock.

Authors:  Nunzia Pastore; Anna Vainshtein; Niculin J Herz; Tuong Huynh; Lorenzo Brunetti; Tiemo J Klisch; Margherita Mutarelli; Patrizia Annunziata; Kenichiro Kinouchi; Nicola Brunetti-Pierri; Paolo Sassone-Corsi; Andrea Ballabio
Journal:  EMBO J       Date:  2019-05-24       Impact factor: 11.598

Review 9.  Molecular principles of metastasis: a hallmark of cancer revisited.

Authors:  Jawad Fares; Mohamad Y Fares; Hussein H Khachfe; Hamza A Salhab; Youssef Fares
Journal:  Signal Transduct Target Ther       Date:  2020-03-12

10.  Postnatal Ontogenesis of the Islet Circadian Clock Plays a Contributory Role in β-Cell Maturation Process.

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