Brain pertussis toxin-sensitive G proteins are involved in the flavoxate hydrochloride-induced suppression of the micturition reflex in rats

Abstract The effect of flavoxate hydrochloride (flavoxate), an anti-pollakiurea agent, on cyclic AMP (CAMP) formation was investigated in the rat brain and a possible involvement of brain G proteins in the action of flavoxate on the bladder function was subsequently examined. Flavoxate (10 −8 −10 −5 M) inhibited CAMP formation in a concentration-dependent manner, an action which was completely abolished by pretreating the membranes with pertussis toxin (PTX). The inhibitory effect of flavoxate was also completely antagonized by combined treatment with any two antagonists for adenosine A 1 (8-cyclopentyl-1,3-dipropylxanthine), dopamine D 2 (sulpiride) or adrenergic α 2 (yohimbine) receptors, although each antagonist alone did not significantly block the flavoxate-induced inhibition of CAMP formation. Radioligand binding studies indicated that flavoxate at micro- or submicromolar concentrations has affinity for Gi-coupled receptors such as A 1 , D 2 and α 2 receptors. Therefore, flavoxate may inhibit cAMP formation by the stimulation of A 1 , D 2 and α 2 receptors. To clarify the involvement of brain G, proteins in the flavoxate-induced inhibition of the micturition reflex, the effect of pretreatment with PTX on the flavoxate-induced inhibition of isovolumetric rhythmic bladder contractions was examined in rats. Flavoxate (3 mg/kg, i.v.) completely abolished rhythmic bladder contractions in vehicle-pretreated rats, but not in PTX-pretreated rats. These findings suggest that signal transduction via G i -coupled receptors is involved, at least in part, in the inhibition of the micturition reflex by flavoxate in rats. These results also provide the first evidence suggesting a negative role of brain PTX-sensitive G proteins in the micturition reflex.