J Clin Invest. 2017 Oct 16. pii: 83626. doi: 10.1172/JCI83626.
[Epub ahead of print]
Ruiz de Azua I1, Mancini G1, Srivastava RK1, Rey AA1, Cardinal P2,3, Tedesco L4, Zingaretti CM5, Sassmann A6, Quarta C7,8, Schwitter C1, Conrad A1, Wettschureck N6, Vemuri VK9, Makriyannis A9, Hartwig J10, Mendez-Lago M10, Bindila L1, Monory K1, Giordano A5, Cinti S5, Marsicano G2,3, Offermanns S6, Nisoli E4, Pagotto U8, Cota D2,3, Lutz B1,11.
Abstract
Dysregulated adipocyte physiology leads to imbalanced energy storage, obesity, and associated diseases, imposing a costly burden on current health care. Cannabinoid receptor type-1 (CB1) plays a crucial role in controlling energy metabolism through central and peripheral mechanisms. In this work, adipocyte-specific inducible deletion of the CB1 gene (Ati-CB1-KO) was sufficient to protect adult mice from diet-induced obesity and associated metabolic alterations and to reverse the phenotype in already obese mice. Compared with controls, Ati-CB1-KO mice showed decreased body weight, reduced total adiposity, improved insulin sensitivity, enhanced energy expenditure, and fat depot-specific cellular remodeling toward lowered energy storage capacity and browning of white adipocytes. These changes were associated with an increase in alternatively activated macrophages concomitant with enhanced sympathetic tone in adipose tissue. Remarkably, these alterations preceded the appearance of differences in body weight, highlighting the causal relation between the loss of CB1 and the triggering of metabolic reprogramming in adipose tissues. Finally, the lean phenotype of Ati-CB1-KO mice and the increase in alternatively activated macrophages in adipose tissue were also present at thermoneutral conditions. Our data provide compelling evidence for a crosstalk among adipocytes, immune cells, and the sympathetic nervous system (SNS), wherein CB1 plays a key regulatory role.
- PMID: 29035280
- DOI: 10.1172/JCI83626