Abstract
With the increased prevalence of obesity and related co-morbidities, such as type 2 diabetes (T2D), worldwide, improvements in pharmacological treatments are necessary. The brain- and peripheral-cannabinoid receptor 1 (CB1R) antagonist rimonabant (RIM) has been shown to induce weight loss and improve glucose homeostasis. We have previously demonstrated that RIM promotes adipose tissue beiging and decreased adipocyte cell size, even during maintenance on a high-fat diet. Given the adverse side-effects of brain-penetrance with RIM, in this study we aimed to determine the site of action for a non-brain-penetrating CB1R antagonist AM6545. By using in vitro assays, we demonstrated the direct effects of this non-brain-penetrating CB1R antagonist on cultured adipocytes. Specifically, we showed, for the first time, that AM6545 significantly increases markers of adipose tissue beiging, mitochondrial biogenesis, and lipolysis in 3T3-L1 adipocytes. In addition, the oxygen consumption rate (OCR), consisting of baseline respiratory rate, proton leak, maximal respiratory capacity, and ATP synthase activity, was greater for cells exposed to AM6545, demonstrating greater mitochondrial uncoupling. Using a lipolysis inhibitor during real-time OCR measurements, we determined that the impact of CB1R antagonism on adipocytes is driven by increased lipolysis. Thus, our data suggest the direct role of CB1R antagonism on adipocytes does not require brain penetrance, supporting the importance of focus on peripheral CB1R antagonism pharmacology for reducing the incidence of obesity and T2D.
Highlights
The prevalence of obesity is growing worldwide and is associated with several metabolic diseases including type 2 diabetes (T2D) and cardiovascular disease [1,2,3]
We provide a mechanism by which this peripheral CB1R antagonist increased markers of beiging and oxygen consumption rate (OCR), via upregulation of lipolysis
The beneficial effects of the direct application of peripheral CB1R antagonist on adipocytes are similar to those seen with brain-penetrating CB1R antagonists, suggesting that the central effects of CB1R antagonist could be avoided while still delivering metabolic benefits
Summary
The prevalence of obesity is growing worldwide and is associated with several metabolic diseases including type 2 diabetes (T2D) and cardiovascular disease [1,2,3]. Brown adipose tissue (BAT), on the other hand, is metabolically active and dissipates energy as heat which is used to maintain body temperature. In addition to classic BAT, the development of brown-like, or beige, adipocytes from white adipocytes leads to improved metabolic homeostasis within WAT via dissipation of extra energy as heat [4]. Obesity is classified as a disease due to the fact that it has been associated and correlated with hypertrophy, stress, and inflammation, conditions which, at their core, have the dysfunction of WAT in common [7]. The ability to induce WAT beiging has been highly regarded as a method to improve vascularization of adipose tissue through angiogenesis as well as improvements in mitochondrial function as potential modalities to reduce obesity-related diseases and mortality
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