thioperamide and proxyfan

Centrally acting histamine H(3) receptor ligands are proposed as potential treatments for obesity, although the value of inverse agonists at these receptors is still debated. Functional inhibition of H(3) autoreceptors activates neurones in a hypothalamic 'satiety' centre. The H(3) receptor antagonist, proxyfan was used as a tool to assess the action of histaminergic compounds in this model.. We compared the actions of histamine on feeding with those of an H(3) receptor agonist (imetit) and inverse agonist (thioperamide) in rats and mice. Sites of action were identified by immunohistochemistry and the hypothalamic ventromedial nucleus (VMN) was investigated using electrophysiological techniques.. Central histamine or thioperamide decreased fast-induced feeding, whereas imetit increased feeding. Systemic thioperamide entered the brain to activate hypothalamic feeding centres and to reduce feeding without causing any adverse behaviours. Thioperamide activated neurones in the VMN through an action on histamine autoreceptors, whilst imetit had the opposite effect. Proxyfan administered alone did not affect either feeding or electrical activity. However, it blocked the actions of both thioperamide and imetit, acting as a neutral antagonist in this system.. The H(3) receptor inverse agonist, thioperamide, potently reduced appetite without adverse behavioural effects. This action was blocked by proxyfan, acting as a neutral antagonist in this model and, therefore, this compound is useful in determining the selectivity of H(3) receptor-directed drugs. A major action of thioperamide is through presynaptic autoreceptors, inducing stimulation by endogenous histamine of postsynaptic H(1 ) receptors on anorectic hypothalamic neurones.

Topics: Animals; Eating; Histamine; Histamine Agonists; Histamine Antagonists; Imidazoles; Male; Mice; Piperidines; Rats; Rats, Sprague-Dawley; Receptors, Histamine H3; Thiourea; Ventromedial Hypothalamic Nucleus

Proxyfan is a histamine H3 receptor protean agonist that can produce a spectrum of pharmacological effects including agonist, inverse agonist, and antagonist. We have discovered that proxyfan (10 mg/kg orally) significantly improved glucose excursion after an ip glucose tolerance test in either lean or high-fat/cholesterol diet-induced obese mice. It also reduced plasma glucose levels comparable to that of metformin (300 mg/kg orally) in a nongenetic type 2 diabetes mouse model. The dose-dependent decrease in glucose excursion correlated with inhibition of ex vivo H3 receptor binding in the cerebral cortex. In addition, glucose levels were significantly reduced compared with vehicle-treated mice after intracerebroventricular administration of proxyfan, suggesting the involvement of central H3 receptors. Proxyfan-induced reduction of glucose excursion was not observed in the H3 receptor knockout mice, suggesting that proxyfan mediates this effect through H3 receptors. Proxyfan reduced glucose excursion by significantly increasing plasma insulin levels in a glucose-independent manner. However, no difference in insulin sensitivity was observed in proxyfan-treated mice. The H1 receptor antagonist chlorpheniramine and the H2 receptor antagonist zolantidine had modest effects on glucose excursion, and neither inhibited the glucose excursion reduced by proxyfan. The H3 receptor antagonist/inverse agonist, thioperamide, had weaker effects on glucose excursion compared with proxyfan, whereas the H3 receptor agonist imetit did not affect glucose excursion. In conclusion, these findings demonstrate, for the first time, that manipulation of central histamine H3 receptor by proxyfan can significantly improve glucose excursion by increasing plasma insulin levels via a glucose-independent mechanism.

Topics: Animals; Diabetes Mellitus, Experimental; Histamine Agonists; Hypoglycemic Agents; Imidazoles; Male; Mice; Mice, Inbred ICR; Mice, Knockout; Piperidines; Receptors, Histamine H1; Receptors, Histamine H2; Receptors, Histamine H3