The endocannabinoid system regulates energy homeostasis through G protein — coupled cannabinoid - 1 receptors5, 6 located
in the central nervous system and in various peripheral tissues, including adipose tissue, muscle, the gastrointestinal tract, and the liver.7 While peripheral cannabinoid - 1 receptor activation decreases adiponectin production in adipocytes, 8 central cannabinoid - 1 receptor activation in preclinical studies stimulates eating, decreases muscle, and stimulates hepatic and adipose tissue lipogenic pathways in animal models of obesity.9 In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorder
in the central nervous system and
in various peripheral tissues, including adipose tissue, muscle, the gastrointestinal tract, and the liver.7 While peripheral cannabinoid - 1 receptor activation decreases adiponectin production in adipocytes, 8 central cannabinoid - 1 receptor activation in preclinical studies stimulates eating, decreases muscle, and stimulates hepatic and adipose tissue lipogenic pathways in animal models of obesity.9 In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorder
in various peripheral tissues, including adipose tissue, muscle, the gastrointestinal tract, and the liver.7 While peripheral cannabinoid - 1 receptor activation decreases adiponectin production
in adipocytes, 8 central cannabinoid - 1 receptor activation in preclinical studies stimulates eating, decreases muscle, and stimulates hepatic and adipose tissue lipogenic pathways in animal models of obesity.9 In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorder
in adipocytes, 8 central cannabinoid - 1 receptor activation
in preclinical studies stimulates eating, decreases muscle, and stimulates hepatic and adipose tissue lipogenic pathways in animal models of obesity.9 In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorder
in preclinical
studies stimulates
eating, decreases muscle, and stimulates hepatic and adipose tissue lipogenic pathways
in animal models of obesity.9 In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorder
in animal models of obesity.9
In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorder
In genetic and diet - induced obesity, rimonabant, a selective cannabinoid - 1 receptor blocker, reduces overactivation of the central8, 10 and peripheral11, 12 endocannabinoid system8, 10,13 and prevents weight gain and associated metabolic disorders, thus revealing a novel strategy for the treatment of obesity and related cardiometabolic disorders.