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      Quercetin Inhibits the Proliferation of Glycolysis-Addicted HCC Cells by Reducing Hexokinase 2 and Akt-mTOR Pathway

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          Abstract

          Increased glycolysis in tumor cells is associated with increased risk of tumor progression and mortality. Therefore, disruption of glycolysis, one of the main sources of cellular energy supply, can serve as a target for suppressing tumor growth and progression. Of note, hexokinase-2 (HK2) plays vital roles in glucose metabolism. Moreover, the expression of HK2 alters the metabolic phenotype and supports the continuous growth of tumor cells, making it an attractive target for cancer therapy. Quercetin (QUE), a bioactive flavonoid, has a profound anti-tumor effect on hepatocellular carcinoma (HCC), but the precise underlying mechanism of this effect is unclear. In the present study, we reported that QUE inhibited the proliferation of HCC cells that relied on aerobic glycolysis. We further found that QUE could decrease the protein levels of HK2 and suppress the AKT/mTOR pathway in HCC cells. In addition, QUE significantly restrained the growth of HCC xenografts and decreased HK-2 expression in vivo. Taken together, we have revealed that QUE suppresses the progression of HCC by inhibiting HK2-dependentglycolysis, which may have a promising potential to be an effective treatments for HCC, especially for those patients with high HK2 expression.

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          Most cited references30

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          On the origin of cancer cells.

          O WARBURG (1956)
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            Akt stimulates aerobic glycolysis in cancer cells.

            Cancer cells frequently display high rates of aerobic glycolysis in comparison to their nontransformed counterparts, although the molecular basis of this phenomenon remains poorly understood. Constitutive activity of the serine/threonine kinase Akt is a common perturbation observed in malignant cells. Surprisingly, although Akt activity is sufficient to promote leukemogenesis in nontransformed hematopoietic precursors and maintenance of Akt activity was required for rapid disease progression, the expression of activated Akt did not increase the proliferation of the premalignant or malignant cells in culture. However, Akt stimulated glucose consumption in transformed cells without affecting the rate of oxidative phosphorylation. High rates of aerobic glycolysis were also identified in human glioblastoma cells possessing but not those lacking constitutive Akt activity. Akt-expressing cells were more susceptible than control cells to death after glucose withdrawal. These data suggest that activation of the Akt oncogene is sufficient to stimulate the switch to aerobic glycolysis characteristic of cancer cells and that Akt activity renders cancer cells dependent on aerobic glycolysis for continued growth and survival.
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              The control of the metabolic switch in cancers by oncogenes and tumor suppressor genes.

              Cells from some tumors use an altered metabolic pattern compared with that of normal differentiated adult cells in the body. Tumor cells take up much more glucose and mainly process it through aerobic glycolysis, producing large quantities of secreted lactate with a lower use of oxidative phosphorylation that would generate more adenosine triphosphate (ATP), water, and carbon dioxide. This is the Warburg effect, which provides substrates for cell growth and division and free energy (ATP) from enhanced glucose use. This metabolic switch places the emphasis on producing intermediates for cell growth and division, and it is regulated by both oncogenes and tumor suppressor genes in a number of key cancer-producing pathways. Blocking these metabolic pathways or restoring these altered pathways could lead to a new approach in cancer treatments.
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                Author and article information

                Journal
                Molecules
                Molecules
                molecules
                Molecules
                MDPI
                1420-3049
                24 May 2019
                May 2019
                : 24
                : 10
                : 1993
                Affiliations
                [1 ]Institute of Biomedical Technology Co., Ltd., Jiangsu Vocational College of Medicine, Yancheng 224005, China; why20133055@ 123456163.com
                [2 ]Department of Pharmacology, School of Basic Medical Sciences, Nanjing Medical University, Nanjing 211166, China
                [3 ]Jiangsu Vocational College of Medicine, Yancheng 224005, China; panlanlan930@ 123456163.com (L.P.); gcx31512000@ 123456163.com (C.G.); xht800703@ 123456163.com (H.X.); liyanping502@ 123456163.com (Y.L.); zlh800927@ 123456163.com (L.Z.); malinwei2000@ 123456163.com (L.M.); li_972@ 123456163.com (L.M.)
                Author notes
                [* ]Correspondence: xiulans@ 123456njmu.edu.cn (X.S.); jyqhb2005@ 123456163.com (H.Q.); Tel.: +86-25-86869405 (X.S.); +86-515-88159026 (H.Q.)
                [†]

                These authors contributed equally to this work.

                Author information
                https://orcid.org/0000-0003-4992-8531
                Article
                molecules-24-01993
                10.3390/molecules24101993
                6572074
                31137633
                b7c3bee6-64a9-40e9-a588-7a8c3bd18e94
                © 2019 by the authors.

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                : 27 April 2019
                : 23 May 2019
                Categories
                Article

                quercetin,hepatocellular carcinoma (hcc),glycolysis,hexokinase-2(hk2)

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