Literature DB >> 20009288

Glucose deprivation-induced metabolic oxidative stress and cancer therapy.

Andrean L Simons1, David M Mattson, Ken Dornfeld, Douglas R Spitz.   

Abstract

Cancer cells (vs. normal cells) demonstrate evidence of oxidative stress, increased glycolysis, and increased pentose cycle activity. The oxidative stress in cancer cells has been hypothesized to arise from mitochondrial dysfunction leading to increased levels of hydroperoxides, and cancer cells have been proposed to compensate for this defect by increasing glucose metabolism. Glucose metabolism has also been shown to play a role in hydroperoxide detoxification via the formation of pyruvate (from glycolysis) and NADPH (from the pentose cycle). Furthermore, in cancer cells, glucose deprivation as well as treatment with 2-deoxyglucose (2 DG) has been shown to induce oxidative stress and cytotoxicity. Additionally, transformed cells have been shown to be more susceptible to glucose deprivation (and 2DG-)-induced cytotoxicity and oxidative stress than untransformed cells. These results support the hypothesis that cancer cells have a defect in mitochondrial respiration leading to increased steady state levels of O2*- and H2O2, and glucose metabolism is increased to compensate for this defect. The application of these findings to developing cancer therapies using 2DG combined with inhibitors of hydroperoxide metabolism to induce radio/chemosensitization is discussed, as well as the possibility that FDG-PET imaging may predict tumor responses to these therapies.

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Year:  2009        PMID: 20009288      PMCID: PMC2820116          DOI: 10.4103/0973-1482.55133

Source DB:  PubMed          Journal:  J Cancer Res Ther        ISSN: 1998-4138            Impact factor:   1.805


  45 in total

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2.  FDG-PET for prediction of tumour aggressiveness and response to intra-arterial chemotherapy and radiotherapy in head and neck cancer.

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4.  Positron emission tomography: an independent indicator of radiocurability in head and neck carcinomas.

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Review 5.  Cisplatin resistance and oncogenes--a review.

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6.  Positron emission tomography in the evaluation of stage III and IV head and neck cancer.

Authors:  T N Teknos; E L Rosenthal; D Lee; R Taylor; C S Marn
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Review 7.  Glucose deprivation-induced oxidative stress in human tumor cells. A fundamental defect in metabolism?

Authors:  D R Spitz; J E Sim; L A Ridnour; S S Galoforo; Y J Lee
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8.  FDG PET studies during treatment: prediction of therapy outcome in head and neck squamous cell carcinoma.

Authors:  Eva Brun; Elisabeth Kjellén; Jan Tennvall; Tomas Ohlsson; Anders Sandell; Roland Perfekt; Roland Perfekt; Johan Wennerberg; Sven Erik Strand
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9.  Evaluation of 18 F-fluorodeoxyglucose positron emission tomography and computed tomography with histopathologic correlation in the initial staging of head and neck cancer.

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  42 in total

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6.  The LKB1 tumor suppressor differentially affects anchorage independent growth of HPV positive cervical cancer cell lines.

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7.  In vivo space radiation-induced non-targeted responses: late effects on molecular signaling in mitochondria.

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Review 8.  Components of cancer metabolism and therapeutic interventions.

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9.  NAMPT suppresses glucose deprivation-induced oxidative stress by increasing NADPH levels in breast cancer.

Authors:  S M Hong; C W Park; S W Kim; Y J Nam; J H Yu; J H Shin; C H Yun; S-H Im; K-T Kim; Y C Sung; K Y Choi
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10.  Radioresistant Cervical Cancers Are Sensitive to Inhibition of Glycolysis and Redox Metabolism.

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