Yunde Xie

Novel selective antagonist of the cannabinoid CB1 receptor, MJ15, with prominent anti-obesity effect in rodent models.

MJ15, a novel cannabinoid CB(1) receptor selective antagonist was discovered. In receptor binding assays, MJ15 displayed a high affinity for rat cannabinoid CB(1) receptor (K(i)=27.2 pM, and IC(50)=118.9 pM), but a much lower affinity for rat cannabinoid CB(2) receptor (only 46% inhibition at 10 microM). At the cellular level, the IC(50) values against activation of cannabinoid CB(1) and CB(2) receptors induced by Win55212-2 in specially designed EGFP-CB(1)_U2OS and EGFP-CB(2)_U2OS cells were 0.11 microM and >10 microM, respectively. In addition, MJ15 dose-dependently blocked Win55212-2 mediated increase of intracellular Ca(2+) levels in hippocampal cells and reversed the inhibitory effects of cannabinoid CB(1) receptor agonist on forskolin-stimulated adenylyl cyclase activity in CHO cells expressing the human cannabinoid CB(1) receptor. In animal experiments, MJ15 demonstrated remarkable effects from 20 to 40 mg/kg, including promoted the small intestine peristalsis in ICR mice and inhibited food intake and body weight increase in diet-induced obesity (DIO) rat and mouse. 40 mg/kg MJ15 significantly reduced food intake at initial 2 weeks of treatment, prevented the increase of body weight and adipose by 46% and 28% respectively in DIO rats, and reduced body weight and adipose gain by 70% and 23% respectively in early onset obesity DIO mice after 4 weeks treatment. Meanwhile, dyslipidemia were ameliorated in both models. Taken together the in vitro and in vivo data, MJ15 is demonstrated to be a potent and selective cannabinoid CB(1) receptor antagonist and holds a prominent potency in obesity and dyslipidemia treatment.

Novel selective cannabinoid CB 1 receptor antagonist MJ08 with potent in vivo bioactivity and inverse agonistic effects

Aim:To characterize the biological profiles of MJ08, a novel selective CB1 receptor antagonist.Methods:Radioligand binding assays were performed using rat brain and spleen membrane preparations. CB1 and CB2 receptor redistribution and intracellular Ca2+ ([Ca2+]i) assays were performed with IN CELL Analyzer. Inverse agonism was studied using intracellular cAMP assays, and in guinea-pig ileum and mouse vas deferens smooth muscle preparations. In vivo pharmacologic profile was assessed in diet-induced obesity (DIO) mice.Results:In radioligand binding assay, MJ08 selectively antagonized CB1 receptor (IC50=99.9 nmol/L). In EGFP-CB1_U2OS cells, its IC50 value against CB1 receptor activation was 30.23 nmol/L (SR141716A: 32.16 nmol/L). WIN 55,212-2 (1 μmol/L) increased [Ca2+]i in the primary cultured hippocampal neuronal cells and decreased cAMP accumulation in CHO-hCB1 cells. MJ08 (10 nmol/L–10 μmol/L) blocked both the WIN 55,212-2-induced effects. Furthermore, MJ08 reversed the inhibition of electrically evoked twitches of mouse vas deferens by WIN 55,212-2 (pA2=10.29±1.05). MJ08 and SR141716A both showed an inverse agonism activity by markedly promoting the contraction force and frequency of guinea pig ileum muscle. MJ08 significantly increased the cAMP level in CHO-hCB1 cells with an EC50 value of 78.6 nmol/L, which was lower than the EC50 value for SR141716A (159.2 nmol/L). Besides the more potent pharmacological effects of cannabinoid CB1 receptor antagonism in DIO mice, such as reducing food intake, decreasing body weight, and ameliorating dyslipidemia, MJ08 (10 mg/kg) unexpectedly raised the fasted blood glucose in vivo.Conclusion:MJ08 is a novel, potent and selective CB1 receptor antagonist/inverse agonist with potent bioactive responses in vitro and in vivo that may be useful for disclosure the versatile nature of CB1 receptors.

(S)-3-(4-(2-(5-Methyl-2-phenyloxazol-4-yl)ethoxy)phenyl)-2-(piperazin-1-yl)propanoic acid compounds: Synthesis and biological evaluation of dual PPARα/γ agonists

A series of novel, potent PPARalpha/gamma dual agonists were synthesized and appraised. The most potent analogue, compound 2b demonstrated EC(50) value of 0.012+/-0.002 and 0.032+/-0.01 microM, respectively, for hPPARalpha and hPPARgamma in transactivation assay. Additionally, compound 2b demonstrated good glucose and lipid lowering effect in genetic diabetic (db/db) mice.