1. Mitochondrial Sirt3 supports cell proliferation by regulating glutamine-dependent oxidation in renal cell carcinoma
- Author
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Kyung Hwa Choi, Hyeok Gu Kang, Kyung-Sup Kim, Young Eun Yoon, Eunjin Koh, Hyun Woo Lee, Woong Kyu Han, Jieun Choi, and Yu Shin Lee
- Subjects
0301 basic medicine ,SIRT3 ,Glutamine ,Biophysics ,Biology ,Mitochondrion ,urologic and male genital diseases ,Biochemistry ,Mitochondrial Proteins ,03 medical and health sciences ,0302 clinical medicine ,Cell Line, Tumor ,Sirtuin 3 ,Tumor Cells, Cultured ,Humans ,Glycolysis ,Carcinoma, Renal Cell ,Molecular Biology ,Cell Proliferation ,Cell growth ,Cell Biology ,Kidney Neoplasms ,Mitochondria ,Cell biology ,Gene Expression Regulation, Neoplastic ,Cytosol ,030104 developmental biology ,Anaerobic glycolysis ,030220 oncology & carcinogenesis ,DNAJA3 ,Oxidation-Reduction - Abstract
Clear cell renal carcinoma (RCC), the most common malignancy arising in the adult kidney, exhibits increased aerobic glycolysis and low mitochondrial respiration due to von Hippel-Lindau gene defects and constitutive hypoxia-inducible factor-α expression. Sirt3 is a major mitochondrial deacetylase that mediates various types of energy metabolism. However, the role of Sirt3 as a tumor suppressor or oncogene in cancer depends on cell types. We show increased Sirt3 expression in the mitochondrial fraction of human RCC tissues. Sirt3 depletion by lentiviral short-hairpin RNA, as well as the stable expression of the inactive mutant of Sirt3, inhibited cell proliferation and tumor growth in xenograft nude mice, respectively. Furthermore, mitochondrial pyruvate, which was used for oxidation in RCC, might be derived from glutamine, but not from glucose and cytosolic pyruvate, due to depletion of mitochondrial pyruvate carrier and the relatively high expression of malic enzyme 2. Depletion of Sirt3 suppressed glutamate dehydrogenase activity, leading to impaired mitochondrial oxygen consumption. Our findings suggest that Sirt3 plays a tumor-progressive role in human RCC by regulating glutamine-derived mitochondrial respiration, particularly in cells where mitochondrial usage of cytosolic pyruvate is severely compromised.
- Published
- 2016
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