Mitochondrial uncoupling links lipid catabolism to Akt inhibition and resistance to tumorigenesis

作者:Nowinski Sara M; Solmonson Ashley; Rundhaug Joyce E; Rho Okkyung; Cho Jiyoon; Lago Cory U; Riley Christopher L; Lee Sunhee; Kohno Shohei; Dao Christine K; Nikawa Takeshi; Bratton Shawn B; Wright Casey W; Fischer Susan M; DiGiovanni John; Mills Edward M*
来源:Nature Communications, 2015, 6(1): 8137.
DOI:10.1038/ncomms9137

摘要

To support growth, tumour cells reprogramme their metabolism to simultaneously upregulate macromolecular biosynthesis while maintaining energy production. Uncoupling proteins (UCPs) oppose this phenotype by inducing futile mitochondrial respiration that is uncoupled from ATP synthesis, resulting in nutrient wasting. Here using a UCP3 transgene targeted to the basal epidermis, we show that forced mitochondrial uncoupling inhibits skin carcinogenesis by blocking Akt activation. Similarly, Akt activation is markedly inhibited in UCP3 overexpressing primary human keratinocytes. Mechanistic studies reveal that uncoupling increases fatty acid oxidation and membrane phospholipid catabolism, and impairs recruitment of Akt to the plasma membrane. Overexpression of Akt overcomes metabolic regulation by UCP3, rescuing carcinogenesis. These findings demonstrate that mitochondrial uncoupling is an effective strategy to limit proliferation and tumorigenesis through inhibition of Akt, and illuminate a novel mechanism of crosstalk between mitochondrial metabolism and growth signalling.

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