Literature DB >> 26853473

Metabolic Heterogeneity in Human Lung Tumors.

Christopher T Hensley1, Brandon Faubert1, Qing Yuan2, Naama Lev-Cohain3, Eunsook Jin4, Jiyeon Kim1, Lei Jiang1, Bookyung Ko1, Rachael Skelton5, Laurin Loudat5, Michelle Wodzak6, Claire Klimko1, Elizabeth McMillan7, Yasmeen Butt8, Min Ni1, Dwight Oliver8, Jose Torrealba8, Craig R Malloy9, Kemp Kernstine10, Robert E Lenkinski11, Ralph J DeBerardinis12.   

Abstract

Non-small cell lung cancer (NSCLC) is heterogeneous in the genetic and environmental parameters that influence cell metabolism in culture. Here, we assessed the impact of these factors on human NSCLC metabolism in vivo using intraoperative (13)C-glucose infusions in nine NSCLC patients to compare metabolism between tumors and benign lung. While enhanced glycolysis and glucose oxidation were common among these tumors, we observed evidence for oxidation of multiple nutrients in each of them, including lactate as a potential carbon source. Moreover, metabolically heterogeneous regions were identified within and between tumors, and surprisingly, our data suggested potential contributions of non-glucose nutrients in well-perfused tumor areas. Our findings not only demonstrate the heterogeneity in tumor metabolism in vivo but also highlight the strong influence of the microenvironment on this feature.
Copyright © 2016 Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 26853473      PMCID: PMC4752889          DOI: 10.1016/j.cell.2015.12.034

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  32 in total

1.  On respiratory impairment in cancer cells.

Authors:  O WARBURG
Journal:  Science       Date:  1956-08-10       Impact factor: 47.728

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Journal:  Proc Natl Acad Sci U S A       Date:  2011-05-09       Impact factor: 11.205

Review 3.  Why do cancers have high aerobic glycolysis?

Authors:  Robert A Gatenby; Robert J Gillies
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4.  The metabolic profile of tumors depends on both the responsible genetic lesion and tissue type.

Authors:  Mariia O Yuneva; Teresa W M Fan; Thaddeus D Allen; Richard M Higashi; Dana V Ferraris; Takashi Tsukamoto; José M Matés; Francisco J Alonso; Chunmei Wang; Youngho Seo; Xin Chen; J Michael Bishop
Journal:  Cell Metab       Date:  2012-02-08       Impact factor: 27.287

5.  Lactate dehydrogenase B is required for the growth of KRAS-dependent lung adenocarcinomas.

Authors:  Mark L McCleland; Adam S Adler; Laura Deming; Ely Cosino; Leslie Lee; Elizabeth M Blackwood; Margaret Solon; Janet Tao; Li Li; David Shames; Erica Jackson; William F Forrest; Ron Firestein
Journal:  Clin Cancer Res       Date:  2012-12-06       Impact factor: 12.531

6.  Metabolic signatures uncover distinct targets in molecular subsets of diffuse large B cell lymphoma.

Authors:  Pilar Caro; Amar U Kishan; Erik Norberg; Illana A Stanley; Bjoern Chapuy; Scott B Ficarro; Klaudia Polak; Daniel Tondera; John Gounarides; Hong Yin; Feng Zhou; Michael R Green; Linfeng Chen; Stefano Monti; Jarrod A Marto; Margaret A Shipp; Nika N Danial
Journal:  Cancer Cell       Date:  2012-10-16       Impact factor: 31.743

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Review 8.  The biology of cancer: metabolic reprogramming fuels cell growth and proliferation.

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Journal:  Cell Metab       Date:  2008-01       Impact factor: 27.287

9.  Catabolism of exogenous lactate reveals it as a legitimate metabolic substrate in breast cancer.

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10.  Monocarboxylate transporters 1-4 in NSCLC: MCT1 is an independent prognostic marker for survival.

Authors:  Marte Eilertsen; Sigve Andersen; Samer Al-Saad; Yury Kiselev; Tom Donnem; Helge Stenvold; Ingvild Pettersen; Khalid Al-Shibli; Elin Richardsen; Lill-Tove Busund; Roy M Bremnes
Journal:  PLoS One       Date:  2014-09-16       Impact factor: 3.240
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  379 in total

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Review 2.  Metabolic Regulation of Tissue Stem Cells.

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Authors:  Sebastian Trousil; Shuang Chen; Chan Mu; Fiona M Shaw; Zhan Yao; Yuping Ran; Tiwari Shakuntala; Taha Merghoub; Dieter Manstein; Neal Rosen; Lewis C Cantley; Jonathan H Zippin; Bin Zheng
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5.  A Landscape of Metabolic Variation across Tumor Types.

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Review 6.  Understanding metabolism with flux analysis: From theory to application.

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Review 7.  Including the mitochondrial metabolism of L-lactate in cancer metabolic reprogramming.

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9.  Tumor start-up: mitochondrial fusion makes it happen.

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Review 10.  Metabolic interactions with cancer epigenetics.

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