Dual-targeting of aberrant glucose metabolism in glioblastoma

Shen, Han; Decollogne, Stéphanie; Dilda, Pierre J.; Hau, Eric; Chung, Sylvia A.; Luk, Peter P.; Hogg, Philip J.; McDonald, Kerrie L.

doi:10.1186/s13046-015-0130-0

Cited by 48 publications

(44 citation statements)

References 55 publications

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“…We found that concurrent use of dichloroacetate with radiotherapy indeed prevented the increase in glycolytic rate observed following radiotherapy alone. Our previous study demonstrated that dichloroacetate effectively induced a dose-dependent proliferation arrest of in vitro cultures of glioblastoma cells but had no significant effect on noncancerous cells (15). This result is in line with most of the studies that investigated the efficacy of dichloroacetate demonstrating that a therapeutic window exists although suprapharmacologic level of dichloroacetate (5-50 mmol/L) is necessary to halt the growth of cancer cells in vitro (9,32,33,35).…”

Section: Discussionsupporting

confidence: 79%

“…Protein concentration was measured using BCA Assay Kit (Pierce). Proteins (50 mg/sample) were separated via reducing 10% SDS-PAGE, and standard Western blotting procedures (15) were used to detect proteins of interest with the following primary antibodies: g-H2AX (Cell Signaling Technology, CST #9718), HIF1a (CST, #3716), PDK-1 (CST, #3820), and b-actin (Abcam, ab8227). Images and densitometry were acquired by using ImageQuant TL software.…”

Section: Western Blottingmentioning

confidence: 99%

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Sensitization of Glioblastoma Cells to Irradiation by Modulating the Glucose Metabolism

Shen

Hau

Joshi

et al. 2015

Molecular Cancer Therapeutics

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100

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Because radiotherapy significantly increases median survival in patients with glioblastoma, the modulation of radiation resistance is of significant interest. High glycolytic states of tumor cells are known to correlate strongly with radioresistance; thus, the concept of metabolic targeting needs to be investigated in combination with radiotherapy. Metabolically, the elevated glycolysis in glioblastoma cells was observed postradiotherapy together with upregulated hypoxia-inducible factor (HIF)-1a and its target pyruvate dehydrogenase kinase 1 (PDK1). Dichloroacetate, a PDK inhibitor currently being used to treat lactic acidosis, can modify tumor metabolism by activating mitochondrial activity to force glycolytic tumor cells into oxidative phosphorylation. Dichloroacetate alone demonstrated modest antitumor effects in both in vitro and in vivo models of glioblastoma and has the ability to reverse the radiotherapy-induced glycolytic shift when given in combination. In vitro, an enhanced inhibition of clonogenicity of a panel of glioblastoma cells was observed when dichloroacetate was combined with radiotherapy. Further mechanistic investigation revealed that dichloroacetate sensitized glioblastoma cells to radiotherapy by inducing the cell-cycle arrest at the G 2 -M phase, reducing mitochondrial reserve capacity, and increasing the oxidative stress as well as DNA damage in glioblastoma cells together with radiotherapy. In vivo, the combinatorial treatment of dichloroacetate and radiotherapy improved the survival of orthotopic glioblastoma-bearing mice. In conclusion, this study provides the proof of concept that dichloroacetate can effectively sensitize glioblastoma cells to radiotherapy by modulating the metabolic state of tumor cells. These findings warrant further evaluation of the combination of dichloroacetate and radiotherapy in clinical trials.

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Section: Discussionsupporting

confidence: 79%

Section: Western Blottingmentioning

confidence: 99%

Sensitization of Glioblastoma Cells to Irradiation by Modulating the Glucose Metabolism

Shen

Hau

Joshi

et al. 2015

Molecular Cancer Therapeutics

Self Cite

100

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“…It is important to mention that all patents received standard of care therapy (Temozolomide and radiation) . DCA continues to be a promising anti‐cancer agent as a study showed that it sensitizes GBM cells to radiotherapy by inducing a G2‐M phase cell‐cycle arrest, reducing mitochondrial reserve capacity and increasing DNA damage …”

Section: Resultsmentioning

confidence: 99%

Targeting cancer stem‐like cells in glioblastoma and colorectal cancer through metabolic pathways

Kahlert

Mooney

Natsumeda

et al. 2016

Intl Journal of Cancer

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Cancer stem-like cells (CSCs) are thought to be the main cause of tumor occurrence, progression and therapeutic resistance. Strong research efforts in the last decade have led to the development of several tailored approaches to target CSCs with some very promising clinical trials underway; however, until now no anti-CSC therapy has been approved for clinical use. Given the recent improvement in our understanding of how onco-proteins can manipulate cellular metabolic networks to promote tumorigenesis, cancer metabolism research may well lead to innovative strategies to identify novel regulators and downstream mediators of CSC maintenance. Interfering with distinct stages of CSC-associated metabolics may elucidate novel, more efficient strategies to target this highly malignant cell population. Here recent discoveries regarding the metabolic properties attributed to CSCs in glioblastoma (GBM) and malignant colorectal cancer (CRC) were summarized. The association between stem cell markers, the response to hypoxia and other environmental stresses including therapeutic insults as well as developmentally conserved signaling pathways with alterations in cellular bioenergetic networks were also discussed. The recent developments in metabolic imaging to identify CSCs were also summarized. This summary should comprehensively update basic and clinical scientists on the metabolic traits of CSCs in GBM and malignant CRC.

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“…В работе [41] на клеточных линиях глиобласто-мы (U87, U251, LN229, DBTRG) изучалась эффек-тивность комбинированного применения НДХА и PENAO -мышьяксодержащего митохондриально-го токсина, подавляющего потребление кислорода и индуцирующего ОС и деполяризацию мембран митохондрий, приводя к запрограммированной клеточной гибели. НДХА, в свою очередь, пода-вляет гликолиз и продукцию кислот, вызванную PENAO, а также ингибирует экспрессию протеина MRP1, что ведет к увеличению накопления PENAO в цитозоле.…”

Section: опухоли нервной системыunclassified

The Biological Activity of Sodium Dichloroacetate and Its Effectiveness During the Experimental Clinical Studies

Цымбалюк¹,

Мануйлов²,

Popov³

et al. 2017

Kuban. nauсh. med. vestnik

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15123. Mizutani N., Sakurai T., Shibata T. et al. Dose-dependent differential regulation of cytokine secretion from macrophages by Fractalkine // Immunol. -2007. -Vol. 179, № 11. -P. 7478-7487. 24. Pachot A., Cazalis M.A., Venet F. et России, Россия, 350063, г. Краснодар, ул. Седина, 4; 3 эндокринологическое отделение МБУЗ ГКБ № 1, Россия, 350000, г. Краснодар, ул. Красная 103/Длинная 123; тел. +7 (928) 430-07-69. E-mail: igor_ts@inbox.ru Исследованию биологической активности дихлорацетата натрия посвящено более 1400 работ в зарубежных из-даниях. Между тем в отечественной литературе представленный обзор является первым и имеет цель объединить и систематизировать результаты многочисленных исследований его эффектов in vitro, на разнообразных клеточ-ных линиях, экспериментальных моделях, а также на целостном организме при широком спектре патологических состояний и заболеваний, сопровождающихся митохондриальной дисфункцией. Механизм его действия связан с активацией пируватдегидрогеназного комплекса, результатом чего в нормальных клетках, находящихся в условиях тканевой гипоксии, является оптимизация расходования кислорода и снижение уровня ацидификации среды, что позволяет относить его к метаболическим цитопротекторам. В атипичных же клетках результатом этого является инверсия метаболизма с интенсификацией свободнорадикальных процессов, активацией каспазного ферментного каскада, снижением активности пропролиферативных и проангиогенетических транскрипционных факторов, что объясняет позитивный эффект в лечении целого ряда опухолей.Ключевые слова: дихлорацетат натрия, митохондриальная дисфункция, пируватдегидрогеназа, метаболиче-ская цитопротекция, противоопухолевая терапия.

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Dual-targeting of aberrant glucose metabolism in glioblastoma

Cited by 48 publications

References 55 publications

Sensitization of Glioblastoma Cells to Irradiation by Modulating the Glucose Metabolism

Sensitization of Glioblastoma Cells to Irradiation by Modulating the Glucose Metabolism

Targeting cancer stem‐like cells in glioblastoma and colorectal cancer through metabolic pathways

The Biological Activity of Sodium Dichloroacetate and Its Effectiveness During the Experimental Clinical Studies

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