Increasing energy expenditure through activation of endogenous brown adipose tissue (BAT) is a potential approach to treat obesity and diabetes. The class of 3-adrenergic receptor (AR) agonists stimulates rodent BAT, but this activity has never been demonstrated in humans. This past year we published findings in which we determined the ability of 200 mg oral mirabegron (Myrbetriq, Astellas Pharma, Inc.), a 3-AR agonist currently approved to treat overactive bladder, to stimulate BAT as compared to placebo. Mirabegron led to higher BAT metabolic activity as measured via 18F-fluorodeoxyglucose (18F-FDG) using positron emission tomography (PET) combined with computed tomography (CT) in all twelve healthy male subjects (p = 0.001), and it increased resting metabolic rate (RMR) by 203 40 kcal/day (+13%; p = 0.001). BAT metabolic activity was also a significant predictor of the changes in RMR (p = 0.006). Therefore, a 3-AR agonist can stimulate human BAT thermogenesis and may be a promising treatment for metabolic disease. We recently published the first atlas of human BAT, the BATlas 1.0. In collaboration with Kong Chen, we studied 20 healthy young men 12 lean, mean body mass index (BMI) 23.2 1.9 kg/m2; 8 obese, BMI 34.8 3.3 kg/m2 after 5 h of tolerable cold exposure. We measured BAT volume and activity by 18F-labeled fluorodeoxyglucose positron emission tomography/computerized tomography (PET/CT). Obese men had less activated BAT than lean men (mean, 130 vs. 334 mL) but more fat in BAT-containing depots (mean, 1,646 vs. 855 mL) with a wide range (0.171%) in the ratio of activated BAT to inactive fat between individuals. Six anatomic regions had activated BAT: cervical, supraclavicular, axillary, mediastinal, paraspinal, and abdominalwith 67 20% of all activated BAT concentrated in a continuous fascial layer comprising the first three depots in the upper torso. These nonsubcutaneous fat depots amounted to 1.5% of total body mass (4.3% of total fat mass), and up to 90% of each depot could be activated BAT. The amount and activity of BAT was significantly influenced by region of interest selection methods, PET threshold criteria, and PET resolutions. The present study suggests that active BAT can be found in specific adipose depots in adult humans, but less than one-half of the fat in these depots is stimulated by acute cold exposure, demonstrating a previously underappreciated thermogenic potential. We also just published the results of the dose response study in which we included exploratory metabolomics in collaboration with BERG Pharma. We showed that besides urinary bladder relaxation,the human b3-AR contributes to white adipose tissue lipolysis, BAT thermogenesis, gallbladder relaxation, and bile acid metabolism. This physiology should be considered in the development of more selective beta3-AR agonists to treat obesity-related complications.

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4
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2018
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U.S. National Inst Diabetes/Digst/Kidney
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Lynes, Matthew D; Shamsi, Farnaz; Sustarsic, Elahu Gosney et al. (2018) Cold-Activated Lipid Dynamics in Adipose Tissue Highlights a Role for Cardiolipin in Thermogenic Metabolism. Cell Rep 24:781-790
Baskin, Alison S; Linderman, Joyce D; Brychta, Robert J et al. (2018) Regulation of Human Adipose Tissue Activation, Gallbladder Size, and Bile Acid Metabolism by a ?3-Adrenergic Receptor Agonist. Diabetes 67:2113-2125
Ran, Chongzhao; Albrecht, Daniel S; Bredella, Miriam A et al. (2018) PET Imaging of Human Brown Adipose Tissue with the TSPO Tracer [11C]PBR28. Mol Imaging Biol 20:188-193
Lynes, Matthew D; Leiria, Luiz O; Lundh, Morten et al. (2017) Corrigendum: The cold-induced lipokine 12,13-diHOME promotes fatty acid transport into brown adipose tissue. Nat Med 23:1384
Leitner, Brooks P; Huang, Shan; Brychta, Robert J et al. (2017) Mapping of human brown adipose tissue in lean and obese young men. Proc Natl Acad Sci U S A 114:8649-8654
Hussein, Sarfaraz; Green, Aileen; Watane, Arjun et al. (2017) Automatic Segmentation and Quantification of White and Brown Adipose Tissues from PET/CT Scans. IEEE Trans Med Imaging 36:734-744
Lynes, Matthew D; Leiria, Luiz O; Lundh, Morten et al. (2017) The cold-induced lipokine 12,13-diHOME promotes fatty acid transport into brown adipose tissue. Nat Med 23:631-637
Gavrila, Alina; Hasselgren, Per-Olof; Glasgow, Allison et al. (2017) Variable Cold-Induced Brown Adipose Tissue Response to Thyroid Hormone Status. Thyroid 27:1-10
Chen, Kong Y; Cypess, Aaron M; Laughlin, Maren R et al. (2016) Brown Adipose Reporting Criteria in Imaging STudies (BARCIST 1.0): Recommendations for Standardized FDG-PET/CT Experiments in Humans. Cell Metab 24:210-22
Singhal, Vibha; Maffazioli, Giovana D; Ackerman, Kathryn E et al. (2016) Correction: Effect of Chronic Athletic Activity on Brown Fat in Young Women. PLoS One 11:e0160129

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