Muscarinic receptors coupled to phosphoinositide hydrolysis (PI) are present in guinea pig bladder and colon. Compared to rat cerebral cortex, an extensively studied muscarinic/PI turnover system, all agonists were more potent and efficacious in both bladder and colon. The "M1-selective antagonists", pirenzepine and dicyclomine, were much more potent (Ki = 1-5 nM) and selective (300 to 500-fold) at both rat and guinea pig brain and guinea pig colon receptors, compared to PI-coupled receptors in guinea pig bladder. In contrast, "M2-selective antagonists", AF-DX 116 and HHSiD, were 2-6 fold more potent in bladder than in brain, while HHSiD was very potent in the colon (50 times more potent than in brain). These results suggest a pharmacological heterogeneity of PI-linked muscarinic receptors. If muscarinic receptors with a low affinity for pirenzepine are defined as M2, these results show that the guinea pig bladder contains PI-linked M2 muscarinic receptors, whereas the guinea pig colon contains PI-linked M1 receptors.
        
Related information
Citations formats
Noronha-Blob L, Lowe VC, Hanson RC, U'Prichard DC (1987) Heterogeneity of muscarinic receptors coupled to phosphoinositide breakdown in guinea pig brain and peripheral tissues Life Sciences41: 967-75
Noronha-Blob L, Lowe VC, Hanson RC, U'Prichard DC (1987) Life Sciences41: 967-75