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. 2022 Mar 17;29(3):423-435.e10.
doi: 10.1016/j.chembiol.2021.10.007. Epub 2021 Oct 28.

Inhibition of glucose transport synergizes with chemical or genetic disruption of mitochondrial metabolism and suppresses TCA cycle-deficient tumors

Kellen Olszewski  1 Anthony Barsotti  1 Xiao-Jiang Feng  1 Milica Momcilovic  2 Kevin G Liu  1 Ji-In Kim  1 Koi Morris  1 Christophe Lamarque  1 Jack Gaffney  1 Xuemei Yu  1 Jeegar P Patel  1 Joshua D Rabinowitz  3 David B Shackelford  2 Masha V Poyurovsky  4
Affiliations
Free article

Inhibition of glucose transport synergizes with chemical or genetic disruption of mitochondrial metabolism and suppresses TCA cycle-deficient tumors

Kellen Olszewski et al. Cell Chem Biol. .
Free article

Abstract

Efforts to target glucose metabolism in cancer have been limited by the poor potency and specificity of existing anti-glycolytic agents and a poor understanding of the glucose dependence of cancer subtypes in vivo. Here, we present an extensively characterized series of potent, orally bioavailable inhibitors of the class I glucose transporters (GLUTs). The representative compound KL-11743 specifically blocks glucose metabolism, triggering an acute collapse in NADH pools and a striking accumulation of aspartate, indicating a dramatic shift toward oxidative phosphorylation in the mitochondria. Disrupting mitochondrial metabolism via chemical inhibition of electron transport, deletion of the malate-aspartate shuttle component GOT1, or endogenous mutations in tricarboxylic acid cycle enzymes, causes synthetic lethality with KL-11743. Patient-derived xenograft models of succinate dehydrogenase A (SDHA)-deficient cancers are specifically sensitive to KL-11743, providing direct evidence that TCA cycle-mutant tumors are vulnerable to GLUT inhibitors in vivo.

Keywords: GLUT inhibitor; PDX models; electron transport chain inhibitors; glycolysis; imaging; malate-aspartate shuttle; mitochondrial inhibitors; pharmacology; redox biology; toxicology.

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Conflict of interest statement

Declaration of interests X.-J.F., K.G.L., J.-I.K., K.M., C.L., X.Y., J.P.P., and M.V.P. are full-time employees of Kadmon Corporation. K.O. was a full-time employee of Kadmon Corporation and is currently a full-time employee of the Barer Institute. M.V.P., K.O., A.B., K.G.L., J.-I.K., K.M., C.L., and X.Y. are listed as inventors on patents associated with this study: WO 2020005935, WO 2018201006, WO 2016210330, and WO 2016210331. The other authors declare no competing interests.

Comment in

  • Inhibiting GLUTtony in cancer.
    Chang SM, Vander Heiden MG. Chang SM, et al. Cell Chem Biol. 2022 Mar 17;29(3):353-355. doi: 10.1016/j.chembiol.2022.03.004. Cell Chem Biol. 2022. PMID: 35303439

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