Direct Inhibition of the Hexose Transporter GLUT1 by Tyrosine Kinase Inhibitors

Vera, Juan Carlos; Reyes, Alejandro; Velásquez, Fernando V.; Rivas, Coralia I.; Zhang, Ronɡ Hua; Strobel, Pablo; Slebe, Juan C.; Núñez-Alarcón, Juana A.; Golde, David W.

doi:10.1021/bi001660j

Cited by 109 publications

(121 citation statements)

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“…Numerous strategies are used for inhibition of glucose transporters such as treatment with nutraceutical Genistein, quercetin, myricetin, morin, rhamnetin and isorhamnetin [49][50][51]. Implementation of keto diet is another approach to curtail glucose availability to cancer cells.…”

Section: Discussionmentioning

confidence: 99%

Low Sugar Diet: A New Tool in War Against Tumorigenesis

Agarwal¹,

Maurya²

2018

Proc. Nat. Res. Soc.

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Cancer is a metabolic disease. Their typical characteristic is high consumption of glucose as these cells mostly have defective mitochondria. They primarily derive energy through aerobic glycolysis even in presence of abundant oxygen. Cancer cells thus are heavily dependent on ample and continuous availability of glucose for growth, proliferation and invasion. These cells adopt various strategies to satisfy their high demand for sugar which includes modification in signalling pathways and abnormally high expression of glucose transporters. Glucose uptake is favoured by alteration in PI3K-Akt-mTOR pathway. High glucose condition creates conducive environment for cancer cells to flourish. The H+ ion secreted as by-product of glycolysis helps in invasion and metastasis. Other by products of glycolysis which includes ATP, NADP and NADPH also aids in growth of cancer cells. Glucose restriction puts break on speedy multiplying tumor cells as unlike normal cells of the body they are unable to metabolize any other source of fuel. Lower glucose level induces changes in level of cleaved caspase 3, Bcl-2, p53 and p21 which prompts senescence and apoptosis in rapidly proliferating tumor cells. Various strategies can be employed to cut down glucose accessibility to cancer cells such as inhibition of glucose transporters, adoption of keto diet. Combining glucose restriction with either chemo or radiotherapy increases their effectiveness; lower CHO levels also provide protection to normal healthy cells of the body against toxic effect of anti-carcinogens. Carbohydrate restriction is a non-toxic, easily impeccable, economical and safe tactic which may be utilized as weapon in war against cancer.

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Section: Discussionmentioning

confidence: 99%

Low Sugar Diet: A New Tool in War Against Tumorigenesis

Agarwal¹,

Maurya²

2018

Proc. Nat. Res. Soc.

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“…D-Glucose-displaceable binding of cytochalasin B to functional glucose transporter was estimated from the difference between cytochalasin B bound in the presence of 500 mM D-sorbitol and 500 mM D-glucose. The amount of specifically bound cytochalasin B was estimated by the quantity of radioactive ligand associated with the membrane pellet (64).…”

Section: Methodsmentioning

confidence: 99%

“…The kinetic properties of the glucose transport have been extensively studied, as red blood cells have provided a good experimental system due to the high expression of this carrier in their plasma membrane (14,15). Likewise, these investigations have revealed a set of different natural and artificial inhibitors of GLUT1, which do not share structural similarities with glucose (6,9,34,36,64). These blockers differ not only in their structure but also in their mode of action.…”

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confidence: 99%

“…The exact mechanism of action of resveratrol remains unclear, but in vivo and in vitro studies have suggested that this compound somehow affects glucose metabolism (7,10,33,41,58,66) perhaps by inhibiting GLUT1 activity. Resveratrol is structurally similar to several flavonoids that have been identified as efficient inhibitors of GLUT1 (62,63), and the available data show that resveratrol causes a competitive inhibition of facilitated transport of glucose in leukemic cells (42) and hinders glucose metabolism in human ovarian cancer cells (29). However, those studies were performed measuring the uptake of 2-deoxy-D-glucose (2DG) during 5-10 min, which does not give a clear distinction between cellular trapping of 2DG induced by its intracellular phosphorylation (11,56,68) and GLUT1-mediated glucose transport, which normally occurs within 1 min (22,65).…”

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confidence: 99%

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Resolution of the direct interaction with and inhibition of the human GLUT1 hexose transporter by resveratrol from its effect on glucose accumulation

Salas

Obando

Ojeda

et al. 2013

American Journal of Physiology-Cell Physiology

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Salas M, Obando P, Ojeda L, Ojeda P, Pérez A, VargasUribe M, Rivas CI, Vera JC, Reyes AM. Resolution of the direct interaction with and inhibition of the human GLUT1 hexose transporter by resveratrol from its effect on glucose accumulation. Am J Physiol Cell Physiol 305: C90 -C99, 2013. First published April 24, 2013; doi:10.1152/ajpcell.00387.2012.-Resveratrol acts as a chemopreventive agent for cancer and as a potential antiobesity and antidiabetic compound, by leading to reduced body fat and improved glucose homeostasis. The exact mechanisms involved in improving hyperglycemic state are not known, but most of the glucose uptake into mammalian cells is facilitated by the GLUT hexose transporters. Resveratrol is structurally similar to isoflavones such as genistein, which inhibit the glucose uptake facilitated by the GLUT1 hexose transporter. Here we examined the direct effects of resveratrol on glucose uptake and accumulation in HL-60 and U-937 leukemic cell lines, which express mainly GLUT1, under conditions that discriminate transport from the intracellular substrate phosphorylation/ accumulation. Resveratrol blocks GLUT1-mediated hexose uptake and thereby affects substrate accumulation on these cells. Consequently, we characterized the mechanism involved in inhibition of glucose uptake in human red cells. Resveratrol inhibits glucose exit in human red cells, and the displacement of previously bound cytochalasin B revealed the direct interaction of resveratrol with GLUT1. Resveratrol behaves as a competitive blocker of glucose uptake under zero-trans exit and exchange kinetic assays, but it becomes a mixed noncompetitive blocker when zero-trans entry transport was assayed, suggesting that the binding site for resveratrol lies on the endofacial face of the transporter. We propose that resveratrol interacts directly with the human GLUT1 hexose transporter by binding to an endofacial site and that this interaction inhibits the transport of hexoses across the plasma membrane. This inhibition is distinct from the effect of resveratrol on the intracellular phosphorylation/accumulation of glucose. glucose transport; GLUT1 transporter; hexose uptake; leukemic cells; resveratrol CANCER CELLS PRODUCE ENERGY predominantly via the anaerobic degradation of glucose. This process, which occurs even in the presence of high concentration of oxygen, assures the high rate of proliferation of cancer cells (67). Recent evidence indicates that the rapid breakdown of glucose through both the glycolytic and pentose phosphate pathways provides not only a quick source of energy but also an immediate supply of metabolites intermediates that will finally feed the biosynthetic pathways (13,24,61). Consistently, the consumption of glucose in cancer cells is significantly enhanced compared with normal cells, indicating that glucose plays a key role in the survival of cancer cells (12,20,25). Indeed, cancer cells are sensitive to glucose deprivation, as limiting the supply of glucose prevents cell proliferation and induces apoptosis (4,36,...

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“…GLUT1 has been known and studied for a long time. Furthermore, compounds, such as ML-9, verapamil, and tyrphostins, can block GLUT1 [97,98]. Therefore, it is possible to attempt acute and partial pharmacological block of GLUT1 to determine whether this is sufficient to induce the symptoms of DYT18.…”

Section: Future Directions In Dystonia Researchmentioning

confidence: 99%