AMPK-deficiency forces metformin-challenged cancer cells to switch from carbohydrate metabolism to ketogenesis to support energy metabolism
Autor: | Sueli de Oliveira Silva, Andre L. P de Abreu, Diego R. Coelho, Marcelo G. Bonini, Rodrigo Miguel, Flavio R. Palma, Jeanne M. Danes, Yiliang Chen, Dean P. Jones, Roy L. Silverstein, Uppal Karan, Veronica Paviani, Bianca Altrão Ratti, Sofia V. Zaichik |
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Rok vydání: | 2020 |
Předmět: |
Cancer Research
Fatty acid metabolism Kinase AMPK Breast Neoplasms Biology Carbohydrate metabolism AMP-Activated Protein Kinases Metformin Article Cell biology chemistry.chemical_compound chemistry Cancer cell Ketogenesis Genetics medicine Carbohydrate Metabolism Humans Glycolysis Energy Metabolism Molecular Biology medicine.drug |
Zdroj: | Oncogene |
ISSN: | 1476-5594 |
Popis: | Epidemiologic studies in diabetic patients as well as research in model organisms have indicated the potential of metformin as a drug candidate for the treatment of various types of cancer, including breast cancer. To date most of the anti-cancer properties of metformin have, in large part, been attributed either to the inhibition of mitochondrial NADH oxidase complex (Complex I in the electron transport chain) or the activation of AMP-activated kinase (AMPK). However, it is becoming increasingly clear that AMPK activation may be critical to alleviate metabolic and energetic stresses associated with tumor progression suggesting that it may, in fact, attenuate the toxicity of metformin instead of promoting it. Here, we demonstrate that AMPK opposes the detrimental effects of mitochondrial complex I inhibition by enhancing glycolysis at the expense of, and in a manner dependent on, pyruvate availability. We also found that metformin forces cells to rewire their metabolic grid in a manner that depends on AMPK, with AMPK-competent cells upregulating glycolysis and AMPK-deficient cell resorting to ketogenesis. In fact, while the killing effects of metformin were largely rescued by pyruvate in AMPKcompetent cells, AMPK-deficient cells required instead acetoacetate, a product of fatty acid catabolism indicating a switch from sugar to fatty acid metabolism as a central resource for ATP production in these cells. In summary, our results indicate that AMPK activation is not responsible for metformin anticancer activity and may instead alleviate energetic stress by activating glycolysis. |
Databáze: | OpenAIRE |
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