Literature DB >> 22682223

Analysis of tumor metabolism reveals mitochondrial glucose oxidation in genetically diverse human glioblastomas in the mouse brain in vivo.

Isaac Marin-Valencia1, Chendong Yang, Tomoyuki Mashimo, Steve Cho, Hyeonman Baek, Xiao-Li Yang, Kartik N Rajagopalan, Melissa Maddie, Vamsidhara Vemireddy, Zhenze Zhao, Ling Cai, Levi Good, Benjamin P Tu, Kimmo J Hatanpaa, Bruce E Mickey, José M Matés, Juan M Pascual, Elizabeth A Maher, Craig R Malloy, Ralph J Deberardinis, Robert M Bachoo.   

Abstract

Dysregulated metabolism is a hallmark of cancer cell lines, but little is known about the fate of glucose and other nutrients in tumors growing in their native microenvironment. To study tumor metabolism in vivo, we used an orthotopic mouse model of primary human glioblastoma (GBM). We infused (13)C-labeled nutrients into mice bearing three independent GBM lines, each with a distinct set of mutations. All three lines displayed glycolysis, as expected for aggressive tumors. They also displayed unexpected metabolic complexity, oxidizing glucose via pyruvate dehydrogenase and the citric acid cycle, and using glucose to supply anaplerosis and other biosynthetic activities. Comparing the tumors to surrounding brain revealed obvious metabolic differences, notably the accumulation of a large glutamine pool within the tumors. Many of these same activities were conserved in cells cultured ex vivo from the tumors. Thus GBM cells utilize mitochondrial glucose oxidation during aggressive tumor growth in vivo.
Copyright © 2012 Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22682223      PMCID: PMC3372870          DOI: 10.1016/j.cmet.2012.05.001

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


  40 in total

1.  Myc regulates a transcriptional program that stimulates mitochondrial glutaminolysis and leads to glutamine addiction.

Authors:  David R Wise; Ralph J DeBerardinis; Anthony Mancuso; Nabil Sayed; Xiao-Yong Zhang; Harla K Pfeiffer; Ilana Nissim; Evgueni Daikhin; Marc Yudkoff; Steven B McMahon; Craig B Thompson
Journal:  Proc Natl Acad Sci U S A       Date:  2008-11-24       Impact factor: 11.205

2.  Perturbational profiling of a cell-line model of tumorigenesis by using metabolic measurements.

Authors:  Arvind Ramanathan; Connie Wang; Stuart L Schreiber
Journal:  Proc Natl Acad Sci U S A       Date:  2005-04-19       Impact factor: 11.205

3.  Pyruvate carboxylase is required for glutamine-independent growth of tumor cells.

Authors:  Tzuling Cheng; Jessica Sudderth; Chendong Yang; Andrew R Mullen; Eunsook S Jin; José M Matés; Ralph J DeBerardinis
Journal:  Proc Natl Acad Sci U S A       Date:  2011-05-09       Impact factor: 11.205

Review 4.  Otto Warburg's contributions to current concepts of cancer metabolism.

Authors:  Willem H Koppenol; Patricia L Bounds; Chi V Dang
Journal:  Nat Rev Cancer       Date:  2011-04-14       Impact factor: 60.716

Review 5.  The biology of cancer: metabolic reprogramming fuels cell growth and proliferation.

Authors:  Ralph J DeBerardinis; Julian J Lum; Georgia Hatzivassiliou; Craig B Thompson
Journal:  Cell Metab       Date:  2008-01       Impact factor: 27.287

6.  Glutamine: a major gluconeogenic precursor and vehicle for interorgan carbon transport in man.

Authors:  N Nurjhan; A Bucci; G Perriello; M Stumvoll; G Dailey; D M Bier; I Toft; T G Jenssen; J E Gerich
Journal:  J Clin Invest       Date:  1995-01       Impact factor: 14.808

7.  The telomerase antagonist, imetelstat, efficiently targets glioblastoma tumor-initiating cells leading to decreased proliferation and tumor growth.

Authors:  Calin O Marian; Steve K Cho; Brian M McEllin; Elizabeth A Maher; Kimmo J Hatanpaa; Christopher J Madden; Bruce E Mickey; Woodring E Wright; Jerry W Shay; Robert M Bachoo
Journal:  Clin Cancer Res       Date:  2010-01-01       Impact factor: 12.531

8.  The lipid phosphatase activity of PTEN is critical for its tumor supressor function.

Authors:  M P Myers; I Pass; I H Batty; J Van der Kaay; J P Stolarov; B A Hemmings; M H Wigler; C P Downes; N K Tonks
Journal:  Proc Natl Acad Sci U S A       Date:  1998-11-10       Impact factor: 11.205

9.  Uptake of glutamate, not glutamine synthetase, regulates adaptation of mammalian cells to glutamine-free medium.

Authors:  R H McDermott; M Butler
Journal:  J Cell Sci       Date:  1993-01       Impact factor: 5.285

10.  Deficiency in glutamine but not glucose induces MYC-dependent apoptosis in human cells.

Authors:  Mariia Yuneva; Nicola Zamboni; Peter Oefner; Ravi Sachidanandam; Yuri Lazebnik
Journal:  J Cell Biol       Date:  2007-07-02       Impact factor: 10.539
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  256 in total

1.  Untuning the tumor metabolic machine: Targeting cancer metabolism: a bedside lesson.

Authors:  Kıvanç Birsoy; David M Sabatini; Richard Possemato
Journal:  Nat Med       Date:  2012-07-06       Impact factor: 53.440

Review 2.  Non-invasive metabolic imaging of brain tumours in the era of precision medicine.

Authors:  Michelle M Kim; Abhijit Parolia; Mark P Dunphy; Sriram Venneti
Journal:  Nat Rev Clin Oncol       Date:  2016-07-19       Impact factor: 66.675

Review 3.  Glutamine and cancer: cell biology, physiology, and clinical opportunities.

Authors:  Christopher T Hensley; Ajla T Wasti; Ralph J DeBerardinis
Journal:  J Clin Invest       Date:  2013-09-03       Impact factor: 14.808

Review 4.  Changing appetites: the adaptive advantages of fuel choice.

Authors:  Illana A Stanley; Sofia M Ribeiro; Alfredo Giménez-Cassina; Erik Norberg; Nika N Danial
Journal:  Trends Cell Biol       Date:  2013-09-07       Impact factor: 20.808

5.  mTORC2 in the center of cancer metabolic reprogramming.

Authors:  Kenta Masui; Webster K Cavenee; Paul S Mischel
Journal:  Trends Endocrinol Metab       Date:  2014-05-21       Impact factor: 12.015

6.  Proteomic and Metabolomic Characterization of a Mammalian Cellular Transition from Quiescence to Proliferation.

Authors:  Ho-Joon Lee; Mark P Jedrychowski; Arunachalam Vinayagam; Ning Wu; Ng Shyh-Chang; Yanhui Hu; Chua Min-Wen; Jodene K Moore; John M Asara; Costas A Lyssiotis; Norbert Perrimon; Steven P Gygi; Lewis C Cantley; Marc W Kirschner
Journal:  Cell Rep       Date:  2017-07-18       Impact factor: 9.423

7.  SVD identifies transcript length distribution functions from DNA microarray data and reveals evolutionary forces globally affecting GBM metabolism.

Authors:  Nicolas M Bertagnolli; Justin A Drake; Jason M Tennessen; Orly Alter
Journal:  PLoS One       Date:  2013-11-25       Impact factor: 3.240

8.  Mitochondrial ClpP-Mediated Proteolysis Induces Selective Cancer Cell Lethality.

Authors:  Jo Ishizawa; Sarah F Zarabi; R Eric Davis; Ondrej Halgas; Takenobu Nii; Yulia Jitkova; Ran Zhao; Jonathan St-Germain; Lauren E Heese; Grace Egan; Vivian R Ruvolo; Samir H Barghout; Yuki Nishida; Rose Hurren; Wencai Ma; Marcela Gronda; Todd Link; Keith Wong; Mark Mabanglo; Kensuke Kojima; Gautam Borthakur; Neil MacLean; Man Chun John Ma; Andrew B Leber; Mark D Minden; Walid Houry; Hagop Kantarjian; Martin Stogniew; Brian Raught; Emil F Pai; Aaron D Schimmer; Michael Andreeff
Journal:  Cancer Cell       Date:  2019-05-02       Impact factor: 31.743

9.  Cancer-Associated IDH1 Promotes Growth and Resistance to Targeted Therapies in the Absence of Mutation.

Authors:  Andrea E Calvert; Alexandra Chalastanis; Yongfei Wu; Lisa A Hurley; Fotini M Kouri; Yingtao Bi; Maureen Kachman; Jasmine L May; Elizabeth Bartom; Youjia Hua; Rama K Mishra; Gary E Schiltz; Oleksii Dubrovskyi; Andrew P Mazar; Marcus E Peter; Hongwu Zheng; C David James; Charles F Burant; Navdeep S Chandel; Ramana V Davuluri; Craig Horbinski; Alexander H Stegh
Journal:  Cell Rep       Date:  2017-05-30       Impact factor: 9.423

10.  Amino Acids Rather than Glucose Account for the Majority of Cell Mass in Proliferating Mammalian Cells.

Authors:  Aaron M Hosios; Vivian C Hecht; Laura V Danai; Marc O Johnson; Jeffrey C Rathmell; Matthew L Steinhauser; Scott R Manalis; Matthew G Vander Heiden
Journal:  Dev Cell       Date:  2016-03-07       Impact factor: 12.270
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