Abstract
The clinical development of the first generation of globally active cannabinoid 1 receptor (CB1R) antagonists was suspended because of their adverse neuropsychiatric effects. Selective blockade of peripheral CB1Rs has the potential to provide a viable strategy for the treatment of severe obesity while avoiding these central nervous system side effects. In the current study, a novel compound (TXX-522) was rationally designed based on the parent nucleus of a classical CB1R-selective antagonist/inverse agonist, rimonabant (SR141716A). Docking assays indicate that TXX-522 was bound with the CB1R in a mode similar to that of SR141716A. TXX-522 showed good binding, CB1R-selectivity (over the CB2R), and functional antagonist activities in a range of in vitro molecular and cellular assays. In vivo analysis of the steady state distribution of TXX-522 in the rat brain and blood tissues and the assay of its functional effects on CB1R activity collectively showed that TXX-522 showed minimal brain penetration. Moreover, the in vivo pharmacodynamic study further revealed that TXX-522 had good oral bioavailability and a potent anti-obesity effect, and ameliorated insulin resistance in high-fat diet-induced obese mice. No impact on food intake was observed in this model, confirming the limited brain penetration of this compound. Thus, the current study indicates that TXX-522 is a novel and potent peripherally acting selective CB1R antagonist with the potential to control obesity and related metabolic disorders.
Highlights
Obesity has undoubtedly become a global concern, affecting more than 1.1 billion individuals worldwide (Silvestri and Di Marzo, 2012; Ahmad and Edwards, 2016)
The binding affinity and selectivity of TXX-522 for two CBR subtypes were first analyzed at the molecular level using a radioligand competitive binding assay with purified cannabinoid 1 receptor (CB1R) and CB2R proteins
The affinity of TXX-522 (IC50 0.17 μmol/L) for CB1R was inferior to that of SR141716A (IC50 0.013 μmol/L). This is consistent with the binding mode assay, where TXX-522 was predicted to have a relatively lower affinity than that of SR141716A for CB1R because it lacked a hydrogen bond interaction with the side chain of a key residue (Ser383) in the CB1R
Summary
Obesity has undoubtedly become a global concern, affecting more than 1.1 billion individuals worldwide (Silvestri and Di Marzo, 2012; Ahmad and Edwards, 2016). In addition to its broad distribution in the Peripheral Restricted CB1R Selective Antagonist central nervous system, cannabinoid receptor 1 (CB1R) is expressed by numerous peripheral organs and tissues including the liver, adipose tissue, gastrointestinal tract, and pancreas (Akbas et al, 2009; Kendall and Yudowski, 2016). Undesirable neuropsychiatric adverse effects, including anxiety, depression, and suicide were observed in some patients, and these central nervous system effects led to the withdrawal of SR141716A from the market in October of 2008 (Janero and Makriyannis, 2009; Le Foll et al, 2009)
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