Inhibition of Glucose Transport Synergizes with Chemical or Genetic Disruption of Mitochondrial Metabolism and Suppresses TCA Cycle-deficient Tumors

Overview

Journal Cell Chem Biol

Publisher Cell Press

Specialty Biochemistry

Date 2021 Oct 29

PMID 34715056

Citations 18

Authors

Kellen Olszewski

Anthony Barsotti

Xiao-Jiang Feng

Milica Momcilovic

Kevin G Liu

Ji-In Kim

Koi Morris

Christophe Lamarque

Jack Gaffney

Xuemei Yu

Jeegar P Patel

Joshua D Rabinowitz

David B Shackelford

Masha V Poyurovsky

Affiliations

Soon will be listed here.

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.

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