Literature DB >> 19033652

Tumor metabolism: cancer cells give and take lactate.

Gregg L Semenza1.   

Abstract

Tumors contain well-oxygenated (aerobic) and poorly oxygenated (hypoxic) regions, which were thought to utilize glucose for oxidative and glycolytic metabolism, respectively. In this issue of the JCI, Sonveaux et al. show that human cancer cells cultured under hypoxic conditions convert glucose to lactate and extrude it, whereas aerobic cancer cells take up lactate via monocarboxylate transporter 1 (MCT1) and utilize it for oxidative phosphorylation (see the related article beginning on page 3930). When MCT1 is inhibited, aerobic cancer cells take up glucose rather than lactate, and hypoxic cancer cells die due to glucose deprivation. Treatment of tumor-bearing mice with an inhibitor of MCT1 retarded tumor growth. MCT1 expression was detected exclusively in nonhypoxic regions of human cancer biopsy samples, and in combination, these data suggest that MCT1 inhibition holds potential as a novel cancer therapy.

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Year:  2008        PMID: 19033652      PMCID: PMC2582934          DOI: 10.1172/JCI37373

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  20 in total

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Review 5.  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

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Journal:  Cell Metab       Date:  2006-03       Impact factor: 27.287

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  130 in total

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2.  Delineating metabolic signatures of head and neck squamous cell carcinoma: phospholipase A2, a potential therapeutic target.

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4.  3-Bromopyruvate antagonizes effects of lactate and pyruvate, synergizes with citrate and exerts novel anti-glioma effects.

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5.  Exercise-induced changes in tumour LDH-B and MCT1 expression are modulated by oestrogen-related receptor alpha in breast cancer-bearing BALB/c mice.

Authors:  Malihe Aveseh; Rohollah Nikooie; Mohsen Aminaie
Journal:  J Physiol       Date:  2015-05-18       Impact factor: 5.182

6.  Reversal of the Warburg phenomenon in chemoprevention of prostate cancer by sulforaphane.

Authors:  Krishna B Singh; Eun-Ryeong Hahm; Joshi J Alumkal; Lesley M Foley; T Kevin Hitchens; Sruti S Shiva; Rahul A Parikh; Bruce L Jacobs; Shivendra V Singh
Journal:  Carcinogenesis       Date:  2019-12-31       Impact factor: 4.944

7.  Functional expression of sodium-glucose transporters in cancer.

Authors:  Claudio Scafoglio; Bruce A Hirayama; Vladimir Kepe; Jie Liu; Chiara Ghezzi; Nagichettiar Satyamurthy; Neda A Moatamed; Jiaoti Huang; Hermann Koepsell; Jorge R Barrio; Ernest M Wright
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Review 8.  Dysregulated pH in Tumor Microenvironment Checkmates Cancer Therapy.

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Journal:  Bioimpacts       Date:  2013-12-10

Review 9.  Rethinking the Warburg effect with Myc micromanaging glutamine metabolism.

Authors:  Chi V Dang
Journal:  Cancer Res       Date:  2010-01-19       Impact factor: 12.701

10.  Mitochondrial Metabolism as a Treatment Target in Anaplastic Thyroid Cancer.

Authors:  Jennifer M Johnson; Stephen Y Lai; Paolo Cotzia; David Cognetti; Adam Luginbuhl; Edmund A Pribitkin; Tingting Zhan; Mehri Mollaee; Marina Domingo-Vidal; Yunyun Chen; Barbara Campling; Voichita Bar-Ad; Ruth Birbe; Madalina Tuluc; Ubaldo Martinez Outschoorn; Joseph Curry
Journal:  Semin Oncol       Date:  2015-09-24       Impact factor: 4.929
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