Mitochondrial respiratory function is now recognized as a pivotal player in all the aspects of cancer biology, from tumorigenesis to aggressiveness and chemotherapy resistance. Among the enzymes that compose the respiratory chain, by contributing to energy production, redox equilibrium and oxidative stress, complex I assumes a central role. Complex I defects may arise from mutations in mitochondrial or nuclear DNA, in both structural genes or assembly factors, from alteration of the expression levels of its subunits, or from drug exposure. Since cancer cells have a high-energy demand and require macromolecules for proliferation, it is not surprising that severe complex I defects, caused either by mutations or treatment with specific inhibitors, prevent tumor progression, while contributing to resistance to certain chemotherapeutic agents. On the other hand, enhanced oxidative stress due to mild complex I dysfunction drives an opposite phenotype, as it stimulates cancer cell proliferation and invasiveness. We here review the current knowledge on the contribution of respiratory complex I to cancer biology, highlighting the double-edged role of this metabolic enzyme in tumor progression, metastasis formation, and response to chemotherapy.

Leone, G., Abla, H., Gasparre, G., Porcelli, A., Iommarini, L. (2018). The Oncojanus Paradigm of Respiratory Complex I. GENES, 9(5), 243-260 [10.3390/genes9050243].

The Oncojanus Paradigm of Respiratory Complex I

Leone, Giulia;Abla, Houda;Gasparre, Giuseppe;Porcelli, Anna
;
Iommarini, Luisa
2018

Abstract

Mitochondrial respiratory function is now recognized as a pivotal player in all the aspects of cancer biology, from tumorigenesis to aggressiveness and chemotherapy resistance. Among the enzymes that compose the respiratory chain, by contributing to energy production, redox equilibrium and oxidative stress, complex I assumes a central role. Complex I defects may arise from mutations in mitochondrial or nuclear DNA, in both structural genes or assembly factors, from alteration of the expression levels of its subunits, or from drug exposure. Since cancer cells have a high-energy demand and require macromolecules for proliferation, it is not surprising that severe complex I defects, caused either by mutations or treatment with specific inhibitors, prevent tumor progression, while contributing to resistance to certain chemotherapeutic agents. On the other hand, enhanced oxidative stress due to mild complex I dysfunction drives an opposite phenotype, as it stimulates cancer cell proliferation and invasiveness. We here review the current knowledge on the contribution of respiratory complex I to cancer biology, highlighting the double-edged role of this metabolic enzyme in tumor progression, metastasis formation, and response to chemotherapy.
2018
Leone, G., Abla, H., Gasparre, G., Porcelli, A., Iommarini, L. (2018). The Oncojanus Paradigm of Respiratory Complex I. GENES, 9(5), 243-260 [10.3390/genes9050243].
Leone, Giulia; Abla, Houda; Gasparre, Giuseppe; Porcelli, Anna; Iommarini, Luisa
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/634590
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