| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2039654 | Cell Reports | 2014 | 17 Pages |
•MCT4 is associated with glycolytic metabolism and poor-prognosis pancreatic cancer•In addicted models, MCT4 is required for maintenance of effective metabolic activity•Depletion of MCT4 induces compensatory metabolism to avert a metabolic crisis•Targeting MCT4 suppresses tumor growth and yields vulnerability to metabolic stress
SummaryKRAS mutation, which occurs in ∼95% of pancreatic ductal adenocarcinoma (PDA), has been shown to program tumor metabolism. MCT4 is highly upregulated in a subset of PDA with a glycolytic gene expression program and poor survival. Models with high levels of MCT4 preferentially employ glycolytic metabolism. Selectively in such “addicted” models, MCT4 attenuation compromised glycolytic flux with compensatory induction of oxidative phosphorylation and scavenging of metabolites by macropinocytosis and autophagy. In spite of these adaptations, MCT4 depletion induced cell death characterized by elevated reactive oxygen species and metabolic crisis. Cell death induced by MCT4-depletion was augmented by inhibition of compensatory pathways. In xenograft models, MCT4 had a significant impact on tumor metabolism and was required for rapid tumor growth. Together, these findings illustrate the metabolic diversity of PDA described by MCT4, delineate pathways through which this lactate transporter supports cancer growth, and demonstrate that PDA can be rationally targeted based on metabolic addictions.
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