期刊
ENDOCRINE REVIEWS
卷 44, 期 2, 页码 143-192出版社
ENDOCRINE SOC
DOI: 10.1210/endrev/bnac015
关键词
brown adipose tissue; thermogenesis; adipose tissues; obesity; insulin resistance; diabetes; glucose metabolism; lipid metabolism; energy metabolism
Brown adipose tissue (BAT) is an important therapeutic target for cardiometabolic diseases due to its unique ability to generate heat. The current definition and measurement of BAT relies on glucose uptake observation, which may not accurately assess BAT's thermogenic activity. The main energy substrate for BAT thermogenesis is intracellular fatty acids, and the response is interconnected with that of white adipose tissue and other metabolic tissues. Current drugs are unable to independently stimulate BAT's thermogenic response.
Brown adipose tissue (BAT) displays the unique capacity to generate heat through uncoupled oxidative phosphorylation that makes it a very attractive therapeutic target for cardiometabolic diseases. Here, we review BAT cellular metabolism, its regulation by the central nervous and endocrine systems and circulating metabolites, the plausible roles of this tissue in human thermoregulation, energy balance, and cardiometabolic disorders, and the current knowledge on its pharmacological stimulation in humans. The current definition and measurement of BAT in human studies relies almost exclusively on BAT glucose uptake from positron emission tomography with F-18-fluorodeoxiglucose, which can be dissociated from BAT thermogenic activity, as for example in insulin-resistant states. The most important energy substrate for BAT thermogenesis is its intracellular fatty acid content mobilized from sympathetic stimulation of intracellular triglyceride lipolysis. This lipolytic BAT response is intertwined with that of white adipose (WAT) and other metabolic tissues, and cannot be independently stimulated with the drugs tested thus far. BAT is an interesting and biologically plausible target that has yet to be fully and selectively activated to increase the body's thermogenic response and shift energy balance. The field of human BAT research is in need of methods able to directly, specifically, and reliably measure BAT thermogenic capacity while also tracking the related thermogenic responses in WAT and other tissues. Until this is achieved, uncertainty will remain about the role played by this fascinating tissue in human cardiometabolic diseases.
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