Adrenergic regulation of de novo fatty acids synthesis in brown adipose tissue: role of mTORC2 and 1

Abstract

Futile metabolic cycles composed of antagonic processes such as fatty acids de novo synthesis and ²-oxidation are activated simutaneoulsy with brown adipose tissue UCP-1 and thermogenesis. Thus, it is our goal in this proposal to invetigate the signaling pathways regulating fatty acids de novo synthesis and ²-oxidation in brown adipose tissue with a special focus on the role of mTORC2 and 1 as mediators of adrenergic signaling. We will also investigate the contribution and impact of fatty acids de novo synthesis and ²-oxidation metabolic cycle to brown adipose tissue fatty acid profile, lipidome and thermogenic capacity and whole body energy balance and expenditure. For this, we will perform 3 protocols to invetigate the impact of: 1- unilateral brown adipose tissue sympathetic denervation; 2- adipocyte mTORC2 and mTORC1 deficiencies; and 3- pharmacological inhibition of acetyl-CoA carboxylase (ACC) e fatty acid synthase (FAS) on body weight, food intake, energy expenditure, core temperature, thermogenic capacity, histology (H/E), mass, DNA and triacylglycerol contents, intracelular signalling, de novo lipogenesis, ²-oxidation, mitochondrial mass and function, fatty acid profile and lipidome in the brown adipose tissue of mice kept at thermoneutrality (30ºC) or exposed to acute (10ºC, 6 and 24 h) or chronic (10ºC, 14 days) cold.