Selectivity subtypes

At low (1—10 nAf) concentrations ANP activates ANP whereas ANPg appears to be the physiological receptor for CNP. ANP and BNP are inactive at the latter subtype except at high micromolar concentrations. AP 811 [124833 5-OJ C gHggN 20g (58) is a selective ANP ligand. (L-a-Aminosuberic is an ANP antagonist. 

Two ET GPCR subtypes, ET and ETg, have been cloned from human tissues. Both leceptois utilize IP /DAG for transduction. ET-1 and ET-2 have similai affinities for the ET subtype, whereas the affinity of ET-3 is much lower. All three peptides have similat affinities for the ETg subtype. Both receptor subtypes ate widely distributed, but ET receptors are more abundant in human heart, whereas ETg receptors constitute 70% of the ET receptors found in kidney. BQ 123 [136553-81 -6] cyclo-[D-Asp-Pro-D-Val-Leu-D-Trp], and ER 139317 (136) are selective ET antagonists. 

Opiates iateract with three principal classes of opioid GPCRs )J.-selective for the endorphiQS,5-selective for enkephalins, and K-selective for dynorphias (51). AU. three receptors have been cloned. Each inhibits adenylate cyclase, can activate potassium channels, and inhibit A/-type calcium channels. The classical opiates, morphine and its antagonists naloxone (144) and naltrexone (145), have moderate selectivity for the. -receptor. Pharmacological evidence suggests that there are two subtypes of the. -receptor and three subtypes each of the 5- and K-receptor. An s-opiate receptor may also exist. 

DOI (294) and a-methyl-5-HT (295) are selective 5-HT2 receptor agonists. Ketansetin (296) and ritansetin (297) are potent and selective 5-HT2 antagonists. SB 200646 (298) is an antagonist which has greater selectivity toward 5-HT2g and receptors compared to the 5-HT2 subtype. 

Three tachykinin GPCRs, NK, NK, and NK, have been identified and cloned. AH are coupled to phosphatidjhnositol hydrolysis. The NK receptor is selective for substance P (SP) and is relatively abundant in the brain, spinal cord, and peripheral tissues. The NK receptor is selective for NKA and is present in the gastrointestinal tract, urinary bladder, and adrenal gland but is low or absent in the CNS. The NIC receptor is selective for NKB and is present in low amounts in the gastrointestinal tract and urinary bladder, but is abundant in some areas of the CNS, ie, the spinal dorsal bom, soUtary nucleus, and laminae IV and V of the cortex with moderate amounts in the interpeduncular nucleus. Mismatches in the distribution of the tachykinins and tachykinin receptors suggest the possibility of additional tachykinin receptor subtypes. 

The opioid peptides vary in their binding affinities for the multiple opioid receptor types. Leu- and Met-enkephalin have a higher affinity for 5-receptors than for the other opioid receptor types (68), whereas the dynorphin peptides have a higher affinity for K-sites (69). P-Endorphin binds with equal affinity to both p- and 5-receptors, but binds with lower affinity to K-sites (70). The existence of a P-endorphin-selective receptor, the S-receptor, has been postulated whether this site is actually a separate P-endorphin-selective receptor or is a subtype of a classical opioid receptor is a matter of controversy (71,72). The existence of opioid receptor subtypes in general is quite controversial although there is some evidence for subtypes of p- (73), 5-(74), and K-receptors (72,75), confirmation of which may be obtained by future molecular cloning studies. 

Two different types of P-adrenoceptors have been characterized and categorized as P - and P2-subtypes. The P -receptors are associated primarily with the cardiac muscle, whereas the P2-subtype is located peripherally. Selective P -blockers include practolol (121) and (122), atenolol (123) and (124), and betaxolol (125) and (126). 

Beta receptors of the beta-1 subtype mediate an increase in heart rate and increased force of contraction they are also found in the central nervous system. E and NE are equaHy potent agonists and selective antagonists are atenolol [29122-68-7] and betaxolol [63659-18-7]. Beta-2 receptors are weH known for their involvement in relaxing bronchioles. E is a more potent agonist than NE procaterol [72332-33-3] is a selective agonist ICl 118551 and a-methylpropranolol are selective antagonists. A particular amine may act on both alpha and beta receptors or predominandy on one type. NE acts mainly on alpha-1, E on both alpha and beta, and isoprotemol [7683-59-2] almost exclusively on beta receptors. Numerous antagonists also differentiate between... 

Kaumann, A. J., and Marano, M. (1982). On equilibrium dissociation constants for complexes of drag receptor subtypes Selective and nonselective interactions of partial agonists with two P-adrenoceptor subtypes mediating positive chronotropic effects of (-) isoprenaline in kitten atria. Nannyn Schmiedebeberg s Arch. Pharmacol. 219 216—221. 

The structure activity relationships ( SAR) of newly synthesized analogues of nucleosides, xanthine heterocycles, and nonxanthine heterocycles have been explored at the ARs. Potent and selective AR antagonists have been prepared for all four subtypes [3, 4], and selective agonists are known for three subtypes [1]. Thus, numerous pharmacological tools are available for in vitro and in vivo use (Table 2). Potent and selective A2b AR agonists are yet to be repotted, although several research groups have identified lead compounds. 

---