The Mitochondrial Uncoupling Protein-2 Promotes Chemoresistance in Cancer Cells

Derdák, Zoltán; Mark, Nicholas M.; Beldi, Guido; Robson, Simon C.; Wands, Jack R.; Baffy, György

doi:10.1158/0008-5472.can-08-0053

Cited by 204 publications

(176 citation statements)

References 30 publications

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“…48). In leukemia and colon cancer cells, UCP2 overexpression had been reported to have a protumoral effect (49,50). In contrary, in the other tumors derived from cells with very low basal UCP2 expression, including melanoma, UCP2 mRNA expression is decreased (Supplementary Table S4).…”

Section: Discussionmentioning

confidence: 99%

Mitochondrial Retrograde Signaling Mediated by UCP2 Inhibits Cancer Cell Proliferation and Tumorigenesis

et al. 2014

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Cancer cells tilt their energy production away from oxidative phosphorylation (OXPHOS) toward glycolysis during malignant progression, even when aerobic metabolism is available. Reversing this phenomenon, known as the Warburg effect, may offer a generalized anticancer strategy. In this study, we show that overexpression of the mitochondrial membrane transport protein UCP2 in cancer cells is sufficient to restore a balance toward oxidative phosphorylation and to repress malignant phenotypes. Altered expression of glycolytic and oxidative enzymes mediated the effects of this metabolic shift. Notably, UCP2 overexpression increased signaling from the master energy-regulating kinase, adenosine monophosphate-activated protein kinase, while downregulating expression of hypoxia-induced factor. In support of recent new evidence about UCP2 function, we found that UCP2 did not function in this setting as a membrane potential uncoupling protein, but instead acted to control routing of mitochondria substrates. Taken together, our results define a strategy to reorient mitochondrial function in cancer cells toward OXPHOS that restricts their malignant phenotype.

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Section: Discussionmentioning

confidence: 99%

Mitochondrial Retrograde Signaling Mediated by UCP2 Inhibits Cancer Cell Proliferation and Tumorigenesis

et al. 2014

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“…[6][7][8][9] Further to this, recent reports demonstrated that different cellular component of the BMME can transfer mitochondria to epithelial cells or solid cancer cell lines through heterocellular contacts. [10][11][12] Although recipient cells displayed an improved metabolism, there is no clear evidence that functional mitochondria are actually transferred.…”

Section: Introductionmentioning

confidence: 99%

Protective mitochondrial transfer from bone marrow stromal cells to acute myeloid leukemic cells during chemotherapy

Moschoi

Imbert

Nebout

et al. 2016

Blood

339

361

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“…UCP2 has a broad distribution and is implicated in a variety of processes, including regulation of reactive oxygen species production (Arsenijevic et al, 2000), food intake (Andrews et al, 2008), insulin secretion (Zhang et al, 2001) and immunity (Arsenijevic et al, 2000) as well as pathologies including atherosclerosis (Blanc et al, 2003), cancer (Derdak et al, 2008), diabetes (Zhang et al, 2001) and neuronal injury (Sullivan et al, 2003). UCP2 levels vary dynamically in response to nutrients and this is achieved by varied expression rates against a background of a very short UCP2 protein half-life of ~1 hour (Rousset et al, 2007;Giardina et al, 2008;Azzu et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

Degradation of an intramitochondrial protein by the cytosolic proteasome

Azzu

Brand

2010

Journal of Cell Science

108

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Mitochondrial uncoupling protein 2 (UCP2) is implicated in a wide range of pathophysiological processes, including immunity and diabetes mellitus, but its rapid degradation remains uncharacterized. Using pharmacological proteasome inhibitors, immunoprecipitation, dominant negative ubiqbiquitiuitin mutants, cellular fractionation and siRNA techniques, we demonstrate the involvement of the ubiquitin-proteasome system in the rapid degradation of UCP2. Importantly, we resolve the issue of whether intramitochondrial proteins can be degraded by the cytosolic proteasome by reconstituting a cell-free system that shows rapid proteasome-inhibitor-sensitive UCP2 degradation in isolated, energised mitochondria presented with an ATP regenerating system, ubiquitin and 26S proteasome fractions. These observations provide the first demonstration that a mitochondrial inner membrane protein is degraded by the cytosolic ubiquitin-proteasome system.

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The Mitochondrial Uncoupling Protein-2 Promotes Chemoresistance in Cancer Cells

Cited by 204 publications

References 30 publications

Mitochondrial Retrograde Signaling Mediated by UCP2 Inhibits Cancer Cell Proliferation and Tumorigenesis

Mitochondrial Retrograde Signaling Mediated by UCP2 Inhibits Cancer Cell Proliferation and Tumorigenesis

Protective mitochondrial transfer from bone marrow stromal cells to acute myeloid leukemic cells during chemotherapy

Degradation of an intramitochondrial protein by the cytosolic proteasome

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