Literature DB >> 31097545

Myc-mediated transcriptional regulation of the mitochondrial chaperone TRAP1 controls primary and metastatic tumor growth.

Ekta Agarwal1,2, Brian J Altman3,4, Jae Ho Seo1,2, Jagadish C Ghosh1,2, Andrew V Kossenkov5, Hsin-Yao Tang5, Shiv Ram Krishn1,6, Lucia R Languino1,6, Dmitry I Gabrilovich1,2, David W Speicher1,5,7, Chi V Dang7,8, Dario C Altieri9,2.   

Abstract

The role of mitochondria in cancer continues to be debated, and whether exploitation of mitochondrial functions is a general hallmark of malignancy or a tumor- or context-specific response is still unknown. Using a variety of cancer cell lines and several technical approaches, including siRNA-mediated gene silencing, ChIP assays, global metabolomics and focused metabolite analyses, bioenergetics, and cell viability assays, we show that two oncogenic Myc proteins, c-Myc and N-Myc, transcriptionally control the expression of the mitochondrial chaperone TNFR-associated protein-1 (TRAP1) in cancer. In turn, this Myc-mediated regulation preserved the folding and function of mitochondrial oxidative phosphorylation (OXPHOS) complex II and IV subunits, dampened reactive oxygen species production, and enabled oxidative bioenergetics in tumor cells. Of note, we found that genetic or pharmacological targeting of this pathway shuts off tumor cell motility and invasion, kills Myc-expressing cells in a TRAP1-dependent manner, and suppresses primary and metastatic tumor growth in vivo We conclude that exploitation of mitochondrial functions is a general trait of tumorigenesis and that this reliance of cancer cells on mitochondrial OXPHOS pathways could offer an actionable therapeutic target in the clinic.
© 2019 Agarwal et al.

Entities:  

Keywords:  Myc (c-Myc); TRAP1; invasion; metabolism; metastasis; mitochondria; oxidative phosphorylation

Mesh:

Substances:

Year:  2019        PMID: 31097545      PMCID: PMC6615691          DOI: 10.1074/jbc.AC119.008656

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  37 in total

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Journal:  Cancer Res       Date:  2005-04-15       Impact factor: 12.701

2.  The transcriptional program of a human B cell line in response to Myc.

Authors:  M Schuhmacher; F Kohlhuber; M Hölzel; C Kaiser; H Burtscher; M Jarsch; G W Bornkamm; G Laux; A Polack; U H Weidle; D Eick
Journal:  Nucleic Acids Res       Date:  2001-01-15       Impact factor: 16.971

3.  Myc stimulates nuclearly encoded mitochondrial genes and mitochondrial biogenesis.

Authors:  Feng Li; Yunyue Wang; Karen I Zeller; James J Potter; Diane R Wonsey; Kathryn A O'Donnell; Jung-Whan Kim; Jason T Yustein; Linda A Lee; Chi V Dang
Journal:  Mol Cell Biol       Date:  2005-07       Impact factor: 4.272

Review 4.  Why do cancers have high aerobic glycolysis?

Authors:  Robert A Gatenby; Robert J Gillies
Journal:  Nat Rev Cancer       Date:  2004-11       Impact factor: 60.716

5.  Regulation of tumor cell mitochondrial homeostasis by an organelle-specific Hsp90 chaperone network.

Authors:  Byoung Heon Kang; Janet Plescia; Takehiko Dohi; Jack Rosa; Stephen J Doxsey; Dario C Altieri
Journal:  Cell       Date:  2007-10-19       Impact factor: 41.582

6.  The Sequence Alignment/Map format and SAMtools.

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7.  Capillary electrophoresis mass spectrometry-based saliva metabolomics identified oral, breast and pancreatic cancer-specific profiles.

Authors:  Masahiro Sugimoto; David T Wong; Akiyoshi Hirayama; Tomoyoshi Soga; Masaru Tomita
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8.  Ultrafast and memory-efficient alignment of short DNA sequences to the human genome.

Authors:  Ben Langmead; Cole Trapnell; Mihai Pop; Steven L Salzberg
Journal:  Genome Biol       Date:  2009-03-04       Impact factor: 13.583

9.  N-myc augments death and attenuates protective effects of Bcl-2 in trophically stressed neuroblastoma cells.

Authors:  A Ushmorov; M D Hogarty; X Liu; H Knauss; K M Debatin; C Beltinger
Journal:  Oncogene       Date:  2008-01-14       Impact factor: 9.867

10.  VANTED: a system for advanced data analysis and visualization in the context of biological networks.

Authors:  Björn H Junker; Christian Klukas; Falk Schreiber
Journal:  BMC Bioinformatics       Date:  2006-03-06       Impact factor: 3.169
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Authors:  Jie Li; Ekta Agarwal; Irene Bertolini; Jae Ho Seo; M Cecilia Caino; Jagadish C Ghosh; Andrew V Kossenkov; Qin Liu; Hsin-Yao Tang; Aaron R Goldman; Lucia R Languino; David W Speicher; Dario C Altieri
Journal:  Sci Signal       Date:  2020-07-28       Impact factor: 8.192

Review 2.  TRAP1 Chaperones the Metabolic Switch in Cancer.

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Journal:  Biomolecules       Date:  2022-06-04

3.  HIF1α-dependent induction of the mitochondrial chaperone TRAP1 regulates bioenergetic adaptations to hypoxia.

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4.  Stomach-specific c-Myc overexpression drives gastric adenoma in mice through AKT/mammalian target of rapamycin signaling.

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5.  Pyruvate dehydrogenase inactivation causes glycolytic phenotype in BAP1 mutant uveal melanoma.

Authors:  Anna Han; Vivian Chua; Usman Baqai; Timothy J Purwin; Nelisa Bechtel; Emily Hunter; Manoela Tiago; Erin Seifert; David W Speicher; Zachary T Schug; J William Harbour; Andrew E Aplin
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6.  Profiling the circulating mRNA transcriptome in human liver disease.

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Review 7.  HSP90 Molecular Chaperones, Metabolic Rewiring, and Epigenetics: Impact on Tumor Progression and Perspective for Anticancer Therapy.

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Review 8.  Modulation of Mitochondrial Metabolic Reprogramming and Oxidative Stress to Overcome Chemoresistance in Cancer.

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Review 9.  Targeting Mitochondrial OXPHOS and Their Regulatory Signals in Prostate Cancers.

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Journal:  Int J Mol Sci       Date:  2021-12-14       Impact factor: 5.923

10.  Ruscogenin attenuated tight junction injury and tumor migration in colorectal liver metastasis mice via regulating TRAP1.

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