Article Publish Status: FREE
Abstract Title:

Energy transfer in"parasitic"cancer metabolism: mitochondria are the powerhouse and Achilles' heel of tumor cells.

Abstract Source:

Cell Cycle. 2011 Dec 15 ;10(24):4208-16. Epub 2011 Dec 15. PMID: 22033146

Abstract Author(s):

Ubaldo E Martinez-Outschoorn, Richard G Pestell, Anthony Howell, Mark L Tykocinski, Fnu Nagajyothi, Fabiana S Machado, Herbert B Tanowitz, Federica Sotgia, Michael P Lisanti

Article Affiliation:

The Jefferson Stem Cell Biology and Regenerative Medicine Center, Thomas Jefferson University, Philadelphia, PA, USA.

Abstract:

It is now widely recognized that the tumor microenvironment promotes cancer cell growth and metastasis via changes in cytokine secretion and extracellular matrix remodeling. However, the role of tumor stromal cells in providing energy for epithelial cancer cell growth is a newly emerging paradigm. For example, we and others have recently proposed that tumor growth and metastasis is related to an energy imbalance. Host cells produce energy-rich nutrients via catabolism (through autophagy, mitophagy, and aerobic glycolysis), which are then transferred to cancer cells to fuel anabolic tumor growth. Stromal cell-derived L-lactate is taken up by cancer cells and is used for mitochondrial oxidative phosphorylation (OXPHOS) to produce ATP efficiently. However,"parasitic"energy transfer may be a more generalized mechanism in cancer biology than previously appreciated. Two recent papers in Science and Nature Medicine now show that lipolysis in host tissues also fuels tumor growth. These studies demonstrate that free fatty acids produced by host cell lipolysis are re-used via beta-oxidation (beta-OX) in cancer cell mitochondria. Thus, stromal catabolites (such as lactate, ketones, glutamine and free fatty acids) promote tumor growth by acting as high-energy onco-metabolites. As such, host catabolism, via autophagy, mitophagy and lipolysis, may explain the pathogenesis of cancer-associated cachexia and provides exciting new druggable targets for novel therapeutic interventions. Taken together, these findings also suggest that tumor cells promote their own growth and survival by behaving as a"parasitic organism."Hence, we propose the term"Parasitic Cancer Metabolism"to describe this type of metabolic coupling in tumors. Targeting tumor cell mitochondria (OXPHOS and beta-OX) would effectively uncouple tumor cells from their hosts, leading to their acute starvation. In this context, we discuss new evidence that high-energy onco-metabolites (produced by the stroma) can confer drug resistance. Importantly, this metabolic chemo-resistance is reversed by blocking OXPHOS in cancer cell mitochondria with drugs like Metformin, a mitochondrial"poison."In summary, parasitic cancer metabolism is achieved architecturally by dividing tumor tissue into at least two well-defined opposing"metabolic compartments:"catabolic and anabolic.

Study Type : In Vitro Study

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