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Title: SIRT3 aggravates metformin-induced energy stress and apoptosis in ovarian cancer cells

Journal Article · · Experimental Cell Research
 [1];  [1]; ; ; ; ; ; ; ;  [1]
  1. Department of Pathophysiology, College of Basic Medical Sciences, Jilin University, Changchun, Jilin (China)
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Highlights: • Metformin induces mitochondrial-apoptosis by targeting respiratory chain complex 1. • The expression and activity of sirtuin 3 (SIRT3) are increased by metformin. • SIRT3 aggravates metformin-induced energy stress and apoptosis. • Inhibition of the AMPK / glucose pathway enhances the antitumor effect of metformin. Increasing evidence suggests that mitochondrial respiratory chain complex I participates in carcinogenesis and cancer progression by providing energy and maintaining mitochondrial function. However, the role of complex I in ovarian cancer is largely unknown. In this study we showed that metformin, considered to be an inhibitor of complex I, simultaneously inhibited cell growth and induced mitochondrial-related apoptosis in human ovarian cancer cells. Metformin interrupted cellular energy metabolism mainly by causing damage to complex I that impacted mitochondrial function. Additionally, treatment with metformin increased the activation of sirtuin 3 (SIRT3), a mitochondrial deacetylase. We demonstrated that SIRT3 overexpression aggravated metformin-induced apoptosis, energy stress and mitochondrial dysfunction. Moreover, treatment with metformin or SIRT3 overexpression increased activation of AMP-activated protein kinase (AMPK), a major sensor of cellular energy status. AMPK compensated for energy loss by increasing glycolysis. The impact of this was assessed by reducing glucose levels in the media or by using inhibitors (2-deoxyglucose, Compound C) of glycolysis and AMPK. The combination of these factors with metformin intensified cytotoxicity through further downregulation of ATP. Our study outlines an important role for SIRT3 in the antitumor effect of mitochondrial complex I inhibitors in human ovarian cancer cells. This effect appears to be mediated by induction of energy stress and apoptosis. Strategies that target the mitochondria could be enhanced by modulating glycolysis to further aggravate energy stress that may increase the antitumor effect.

OSTI ID:
23082362
Journal Information:
Experimental Cell Research, Vol. 367, Issue 2; Other Information: Copyright (c) 2018 Elsevier Inc. All rights reserved.; Country of input: International Atomic Energy Agency (IAEA); ISSN 0014-4827
Country of Publication:
United States
Language:
English

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Related Subjects

60 APPLIED LIFE SCIENCES
APOPTOSIS
CARCINOGENESIS
ENERGY LOSSES
GLUCOSE
GLYCOLYSIS
MITOCHONDRIA
NEOPLASMS
OVARIES