Potencies of antagonists chemically related to iodoproxyfan at histamine H3 receptors in mouse brain cortex and guinea-pig ileum: evidence for H3 receptor heterogeneity?

Abstract

We determined the affinities of 16 newly synthesized H₃ receptor antagonists in an H₃ receptor binding assay and the potencies of 12 of these compounds at functional H₃ receptors in the mouse brain cortex and guinea-pig ileum. The compounds differ from histamine in that the C-C-N side chain is replaced by a chain of the structure C-C-C-O. The two major aims of the study were (1) to investigate whether the two functional H₃ receptors are pharmacologically different and (2) to derive structure-activity relationships. The specific binding of ³H-N ^a -methylhistamine to rat mine for its inhibitory effect on the electrically induced contraction in guinea-pig ileum strips; the apparent pA₂ values ranged from 5.97 to 9.00. Iodoproxyfan decreased the electrically induced contraction by itself and this effect was counteracted by the H₃ receptor antagonist thioperamide. The apparent pA₂ values in the two functional H₃ receptor models showed a highly significant correlation (r=0.882; Pi values of the compounds in the binding assay were compared to their apparent pA₂ values in the mouse brain (r=0.799; PP3 receptor antagonist potency. The two functional H₃ receptors in the mouse brain cortex and the guinea-pig ileum may be slightly different; further studies are necessary to clarify whether this difference is due to H₃ receptor heterogeneity, species variants or differences in the efficiency of receptor coupling. The marked difference in the affinity/potency between iodoproxyfan and its deiodo analogue may suggest that a highly lipophilic residue in that part of the molecule favours a high affinity/antagonistic potency at H₃ receptors.