Affinity profiles of pizotifen, ketotifen and other tricyclic antimuscarinics at muscarinic receptor subtypes M1, M2 and M3

Abstract

The affinity of pizotifen, ketotifen and other tricyclic antimuscarinic drugs for different muscarinic receptor subtypes was investigated in vitro in functional experiments with field-stimulated vas deferens of the rabbit (M1 and M2 receptors) and with ileum and trachea of the guinea-pig (M3 receptors). All compounds were competitive antagonists in the three tissues. Like the close analogue cyproheptadine (pA2 = 7.99-8.08), pizotifen (pA2 = 7.23-7.81) and ketotifen (pA2 = 6.34-6.99) were devoid of selectivity for the receptor subtypes studied. Thiazinamium, although exhibiting high affinity for muscarinic receptors (pA2 = 7.83-8.51), was found to be non-selective. In contrast, the novel pirenzepine analogue nuvenzepine was selective for M1 receptors (pA2 = 6.63-7.74). The lack of selectivity of cyproheptadine, pizotifen and ketotifen is reflected in the chemical structures of these drugs. All three antagonists are composed of a very similar tricyclic ring system linked to a 1-methyl-4-piperidylene ring. The finding that thiazinamium, pizotifen and cyproheptadine were potent muscarinic antagonists and possessed non-selective affinity characteristics may have therapeutic implications.