The cannabinoid Δ(9)-tetrahydrocannabivarin (THCV) ameliorates insulin sensitivity in two mouse models of obesity.

BACKGROUND: Cannabinoid type-1 (CB1) receptor inverse agonists improve type 2 diabetes and dyslipidaemia but were discontinued due to adverse psychiatric effects. Δ(9)-Tetrahydrocannabivarin (THCV) is a neutral CB1 antagonist producing hypophagia and body weight reduction in lean mice. We investigated its effects in dietary-induced (DIO) and genetically (ob/ob) obese mice. METHODS: We performed two dose-ranging studies in DIO mice; study 1: 0.3, 1, 2.5, 5 and 12.5 mg kg(-1), oral twice daily for 30 days and study 2: 0.1, 0.5, 2.5 and 12.5 mg kg(-1), oral, once daily for 45 days. One pilot (study 3: 0.3 and 3 mg kg(-1), oral, once daily) and one full dose-ranging (study 4: 0.1, 0.5, 2.5 and 12.5 mg kg(-1), oral, once daily) studies in ob/ob mice for 30 days. The CB1 inverse agonist, AM251, oral, 10 mg kg(-1) once daily or 5 mg kg(-1) twice daily was used as the positive control. Cumulative food and water intake, body weight gain, energy expenditure, glucose and insulin levels (fasting or during oral glucose tolerance tests), plasma high-density lipoprotein and total cholesterol, and liver triglycerides were measured. HL-5 hepatocytes or C2C12 myotubes made insulin-resistant with chronic insulin or palmitic acid were treated with 0, 1, 3 and 10 µM THCV or AM251. RESULTS: THCV did not significantly affect food intake or body weight gain in any of the studies, but produced an early and transient increase in energy expenditure. It dose-dependently reduced glucose intolerance in ob/ob mice and improved glucose tolerance and increased insulin sensitivity in DIO mice, without consistently affecting plasma lipids. THCV also restored insulin signalling in insulin-resistant hepatocytes and myotubes. CONCLUSIONS: THCV is a new potential treatment against obesity-associated glucose intolerance with pharmacology different from that of CB1 inverse agonists/antagonists.

Retinoid X receptor agonists have anti-obesity effects and improve insulin sensitivity in Zucker fa/fa rats.

OBJECTIVE: To investigate whether retinoid X receptor agonists act as insulin sensitizers and compare their effects with that of thiazolidinedione BRL 49653 in obese Zucker rats. DESIGN: In two independent studies, obese Zucker rats were dosed orally once daily for 14 days with one of the following treatments: LG 100268 (20 mg/kg), LG 100324 (20 mg/kg), BRL 49653 (3 mg/kg) or vehicle. MEASUREMENTS: Daily food intake and body weight gain, blood glucose, plasma and pancreatic insulin, whole body glucose disposal (by euglycaemic-hyperinsulinaemic clamp) and tissue glucose utilization. RESULTS: The retinoid X receptor agonists (rexinoids) LG 100268 and LG 100324 caused a reduction in the food intake of obese Zucker rats relative to controls and to rats receiving BRL 49653. The two rexinoids also produced a marked decrease in the body weight gain, whereas the growth rate of rats treated with BRL 49653 tended to increase. Both rexinoids and BRL 49653 reduced the plasma insulin concentration of fed rats. LG 100268 and LG 100324 also significantly lowered blood glucose concentrations after 1 week of treatment. The 5 h fasted plasma insulin concentration was significantly lower in the rexinoid-treated groups and the terminal insulin level (at the end of the clamp) tended to be lower in all treated groups compared with animals given the dosing vehicle. However, pancreatic insulin content was not affected by any of the treatments. Under euglycaemic-hyperinsulinaemic clamp conditions, there were no significant differences in the rate of hepatic glucose output and whole body glucose disposal, except that, in experiment 1, BRL 49653 caused significant increase in the glucose infusion rate and muscle glucose utilization. In experiment 2, a similar glucose infusion rate to the controls was achieved in all treatment groups but the steady-state insulin concentration in the treated animals was only about 50% of that in the control animals, despite the fact that all rats received a similar insulin infusion concentration. This suggests that both the rexinoids and BRL 49653 increased insulin clearance. CONCLUSIONS: Chronic administration of retinoid X receptor agonists LG 100268 and LG 100324 to Zucker fa/fa rats reduces food intake and body weight gain, lowers plasma insulin concentrations while maintaining normoglycaemia, indicating an improvement of insulin sensitivity.

Beta-cell tropin- and glucose-induced hypersecretion of insulin and amylin from perfused fatty rat pancreas.

The neurointermediate pituitary peptide beta-cell tropin (BCT) has potent insulin-releasing and lipogenic properties and is elevated in obesity and type-2 diabetes. The effects of BCT and glucose on the release of insulin and amylin from the perfused pancreas of obese 'fatty' (fa/fa) rats and lean (Fa/?) controls were measured. Pancreata were perfused, sequentially, with buffer containing: 5.6 mmol glucose/l (basal); basal glucose +/- 0.5 nmol BCT/l; 16.7 mmol glucose/l (high). Insulin and amylin release during basal glucose treatment was eight to nine times greater from pancreata from fatty than from lean rats. BCT induced a fivefold greater monophasic insulin and amylin release from fatty compared with lean pancreata. When not preceded by BCT there was a twofold greater high glucose-induced amylin release from fatty pancreata but no difference in insulin secretion. When preceded by BCT stimulation, high glucose induced twofold greater insulin and fourfold larger amylin release from fatty compared with lean pancreata. Molar secretion ratios of insulin:amylin varied between 30:1 and 50:1. In view of the elevated levels of BCT found in the fatty rat and in the light of the above findings, it is concluded that the peptide may have a role in the development of hyperinsulinaemia, hyperamylinaemia and insulin resistance in this animal model of obesity and diabetes.