The application of high-throughput screening to novel lead discovery.

The ability to discover new lead compounds for novel therapeutic targets is a pivotal step in drug discovery programmes. High-throughput screening (HTS) utilises a number of platforms for the rapid screening of novel targets to accelerate this process. Key issues in HTS include assay configuration and the ability of a high-throughput screen to predict drug-target interactions accurately. This review highlights a number of issues in the HTS process and describes three key target areas that are likely to be sources of novel, therapeutically important drugs. Particular emphasis is placed on the mechanistic basis of drug-target interactions that are of prime importance in the design of HTS approaches. Critical aspects of information management related to HTS are summarised.

Evaluation of the pharmacological selectivity profile of alpha 1 adrenoceptor antagonists at prostatic alpha 1 adrenoceptors: binding, functional and in vivo studies.

1. The profile of a range of alpha 1 adrenoceptor antagonists was determined in vitro against cloned human alpha 1A, alpha 1B and alpha 1D adrenoceptors and against noradrenaline-mediated contractions of rat aorta and human prostate. The in vivo profile of compounds was determined in an anaesthetized dog model which allowed the simultaneous assessment of antagonist potency against phenylephrine-mediated increases in blood pressure and prostatic pressure. 2. The quinazoline antagonists, prazosin, doxazosin and alfuzosin displayed high affinity but were non selective for the three cloned human alpha 1 adrenoceptors. Indoramin and SNAP 1069 showed selectivity for alpha 1A and alpha 1B adrenoceptors relative to the alpha 1D subtype. Rec 15/2739, WB 4101, SL 89,0591, (+)- and (-)- tamsulosin showed selectivity for alpha 1A and alpha 1D adrenoceptors relative to the alpha 1B subtype. RS 17053 showed high affinity and selectivity for alpha 1A adrenoceptors (pKi 8.6) relative to alpha 1B (pKi = 7.3) and alpha 1D (pKi = 7.1) subtypes. 3. (+)-Tamsulosin, (-)-tamsulosin, SL 89,0591, Rec 15/2739, SNAP 1069 and RS 17053 appeared to act as competitive antagonists of noradrenaline-mediated contractions of rat aorta yielding pA2 affinity estimates which were similar to binding affinities at cloned human alpha 1D adrenoceptors. The following rank order was obtained: prazosin = (-)-tamsulosin > doxazosin > SL 89,0591 = (+)-tamsulosin > Rec 15/2739 > RS 17053 = SNAP 1069. 4. (-)-Tamsulosin was a very potent, insurmountable antagonist of noradrenaline-mediated contractions of human prostate, yielding an approximate pA2 estimate of 9.8 at 1 nM. The corresponding (+)-enantiomer was 30 fold weaker. SL 89,0591, SNAP 1069 and Rec 15/2739 yielded pA2 estimates which compared well with their alpha 1A binding affinities. The affinity estimate for prazosin on human prostate was lower than the corresponding binding affinity determined at alpha 1A adrenoceptors and RS 17053 was a very weak antagonist on human prostate (pA2 = 6.0) relative to the high affinity (pKi = 8.6) determined at cloned human alpha 1A adrenoceptors. 5. In the anaesthetized dog, in vivo pseudo "pA2' values showed that doxazosin, (+)- and (-)-tamsulosin inhibited phenylephrine-induced increases in prostatic and blood pressure with similar affinity, implying that these agents show little or no selectivity for prostatic responses in this model. SL 89,0591 and SNAP 1069 were moderately selective (3 and 6 fold respectively) for prostatic pressure relative to blood pressure. Rec 15/2739 was a more potent antagonist of phenylephrine-mediated increases in prostatic pressure ("pA2' = 8.74) compared to blood pressure ("pA2' = 7.51). 6. Data in this study suggest that the alpha 1 adrenoceptor mediating noradrenaline-induced contractions of human prostate, whilst having some of the characteristics of an alpha 1A adrenoceptor, cannot be satisfactorily aligned with cloned alpha 1A, alpha 1B or alpha 1D adrenoceptors. In addition, studies in the anaesthetized dog have shown that agents having high affinity and selectivity for prostatic alpha 1 adrenoceptors, particularly over the alpha 1D subtype, appear to inhibit phenylephrine-induced increases in prostatic pressure selectively compared to blood pressure.

Neuroprotective properties of lifarizine compared with those of other agents in a mouse model of focal cerebral ischaemia.

1. Changes in the peripheral type benzodiazepine binding site density following middle cerebral artery occlusion in the mouse, have been used as a marker of neuronal damage. These sites can be identified using the selective ligand [3H]-PK 11195 located on non neuronal cells, macrophages and astroglia, within the CNS. Glial cell proliferation and macrophage invasion is an unvoidable sequelae to cerebral ischaemic injury, secondary to neuronal loss. Following occlusion of the left middle cerebral artery (left MCA) a reproducible lesion was found in the parietal cortex within 7 days which gave rise to a significant increase in [3H]-PK 11195 binding. 2. Treatment of animals with the sodium channel blocker, lifarizine, significantly reduced the ischaemia-induced increase in [3H]-PK 11195 binding when given either 30 min pre-ischaemia and three times daily for 7 days at 0.5 mg kg-1, i.p. (P < 0.01) or delayed until 15 min post-ischaemia and three times daily for 7 days at 0.5 mg kg-1, i.p. (P < 0.001). Lifarizine was an effective neuroprotective agent in this model of focal ischaemia in the mouse. 3. Lifarizine also showed a dose-related protection against the ischaemia-induced increase in [3H]-PK 11195 binding with significant protection at doses of 0.1 mg kg-1, i.p. (P < 0.05), 0.25 mg kg-1, i.p. (P < 0.01) or 0.5 mg kg-1, i.p. (P < 0.01) 15 min post-ischaemia and b.i.d. for 7 days. No significant change is seen in the Kd for [3H]-PK 11195. The first dose could be delayed for up to 4 h after cerebralartery cauterization and protection was maintained.4. Phenytoin (28 mg kg-1, i.v. 15 min and 24 h post-ischaemia) was also neuroprotective in this model(P<0.01). This agent is thought to interact with voltage-dependent sodium channels to effect its anticonvulsantactions and this mechanism may also underlie its neuroprotective actions in focal cerebralischaemia.5. Agents with other mechanisms of action were also shown to have significant neuroprotection in this model. The non-competitive NMDA antagonist, MK 801, showed significant neuroprotection in the model when given at 0.5 mg kg-1, i.p. 30 min pre-ischaemia with t.i.d. dosing for 7 days (P< 0.001). The dihydropyridine calcium antagonist, nimodipine was not protective when given using the same dosing protocol as MK 801, 0.5 mg kg-1 30 min pre-occlusion and three times daily for 7 days but showed significant protection when given at 0.05 mg kg-1 15 min post-ischaemia and three times daily for 7days. The lipid peroxidation inhibitor, tirilazad (single dose 1 mg kg-1, i.v.) showed significant neuroprotection when given 5 min post-ischaemia but not when the first dose was delayed for 4 h.

Characterization of an alpha 1D-adrenoceptor mediating the contractile response of rat aorta to noradrenaline.

1. The affinities of a number of alpha 1-adrenoceptor antagonists were determined by displacement of [3H]-prazosin binding from cloned human alpha 1A-adrenoceptors (previously designated cloned alpha 1c subtype), alpha 1B alpha 1D and rat alpha 1D-adrenoceptors, stably expressed in rat-1 fibroblasts. Functional affinity estimates for these compounds were also determined from noradrenaline-mediated contractions of rat aorta. 2. BMY 7378 displayed high affinity for cloned human alpha 1D-adrenoceptors (pKi = 8.2 +/- 0.10) and was selective over alpha 1A (pKi = 6.2 +/- 0.10) and alpha 1B subtypes (6.7 +/- 0.11). WB 4101, benoxathian and phentolamine displayed high affinity for alpha 1A and alpha 1D adrenoceptors compared to the alpha 1B subtype. Spiperone displayed high affinity and selectivity for alpha 1B adrenoceptors (pKi 8.8 +/- 0.16). 5-Methyl-urapidil was selective for cloned alpha 1A adrenoceptors. 3. Comparative binding affinities (pKi) for compounds at cloned human and rat1D adrenoceptors were almost identical (r = 0.99, slope = 1.08). 4. Prazosin, doxazosin and 5-methyl-urapidil were potent, competitive antagonists of noradrenaline-mediated contractions of rat aorta (pA2 values of 9.8, 8.8 and 7.8 respectively). The selective alpha 1D antagonist BMY 7378 was also a potent antagonist on rat aorta (pKB = 8.3 +/- 0.1) but the interaction of this compound was not consistent with competitive antagonism at a single population of receptors. 5. Functional affinities for compounds determined against noradrenaline-mediated contractions of rat aorta correlated well with binding affinities at cloned alpha 1D-adrenoceptors (r = 0.96), but not with alpha 1A (r = 0.61) or alpha 1B (r = 0.46) subtypes. 6. Noradrenaline-mediated contractions of rat aorta were sensitive to the alkylating effects of chlorethylclonidine (CEC). CEC (10 microM) caused a small rightward shift in the noradrenaline concentration-response curve. CEC at 100 microM caused a further shift and suppression of the maximum response to noradrenaline.7. The results of this study suggest that noradrenaline predominantly, but not exclusively, mediates contraction of rat aorta through the activation of an alphalD-adrenoceptor.

Effect of alpha 1 adrenoceptor antagonists on prostatic pressure and blood pressure in the anesthetized dog.

OBJECTIVES: In the current study we have profiled a range of compounds at alpha 1 adrenoceptor subtypes in vitro and have assessed their effects in vivo using the anesthetized dog in an attempt to elucidate the predominant alpha 1 adrenoceptor subtype mediating contractile responses of the canine prostate. METHODS: The affinity of compounds for alpha 1 adrenoceptor subtypes was determined by displacement of [3H] prazosin binding from stably transfected rat 1 fibroblasts expressing alpha 1A, alpha 1B, and alpha 1C, adrenoceptor subtypes. The potency of these agents was then assessed in vivo using an anesthetized dog model allowing simultaneous measurement of prostatic pressure and blood pressure following intravenous (i.v.) administration of phenylephrine (1 to 128 micrograms/kg). RESULTS: All compounds examined in this study showed high and similar affinity for alpha 1 adrenoceptor subtypes, with the exception of 5-Methyl-urapidil, which was selective for alpha 1C (pKi = 9.3) over alpha 1B (pKi = 7.2) and alpha 1A (pKi = 8.1). Doxazosin, terazosin, alfuzosin, and tamsulosin were potent antagonists of phenylephrine responses and in vivo derived "pseudo pA2" determinations showed that the drugs did not discriminate between prostatic and vascular receptors. 5-Methyl-urapidil was also a potent antagonist of phenylephrine-induced responses but was selective for prostatic pressure ("pseudo pA2" = 8.7) over blood pressure ("pseudo pA2" = 7.2). CONCLUSIONS: Data in the present study suggest a predominant role of the alpha 1C adrenoceptor subtype in the contractile response of the canine prostate to phenylephrine in vivo. This model therefore provides a suitable means of assessing putative prostate-selective antagonists for the treatment of benign prostatic hyperplasia.

Pharmacological properties of the cloned alpha 1A/D-adrenoceptor subtype are consistent with the alpha 1A-adrenoceptor characterized in rat cerebral cortex and vas deferens.

1. The pharmacological characteristics of cloned mammalian alpha 1A/D-, alpha 1B- and alpha 1C-adrenoceptor subtypes expressed in rat 1 fibroblasts were determined in comparison to the binding and functional properties of these subtypes in rat tissues. 2. Analysis of [3H]-prazosin binding to membrane homogenates from rat 1 fibroblast cells expressing each of the alpha 1-subtypes indicated high affinity binding to a single population of binding sites. Binding affinities were similar for alpha 1A/D-, alpha 1B- and alpha 1C-subtypes (Kds: 0.13, 0.10 and 0.15 nM respectively) although a higher density of alpha 1B- and alpha 1C-receptors (Bmax: 4068 and 10,323 fmol mg-1 protein respectively) were expressed in comparison to alpha 1A/D (838 fmol mg-1). 3. Displacement of [3H]-prazosin from membranes expressing cloned alpha 1-adrenoceptor subtypes revealed that 5-methyl-urapidil, WB 4101, benoxathian and phentolamine displayed high affinity and selectivity for alpha 1A/D- over alpha 1B-subtypes. These compounds also had high affinity and selectivity for alpha 1C- over alpha 1B-subtypes. 5-Methyl-urapidil showed selectivity for alpha 1C (Ki 0.60 +/- 0.16 nM) over both alpha 1A/D (Ki, 9.8 +/- 2.8 nM) and alpha 1B (Ki 57.2 +/- 12 nM) subtypes. Prazosin and doxazosin were not subtype selective. 4. In comparison to [3H]-prazosin a similar pharmacological profile was obtained with [125I]-HEAT using cloned alpha 1A/D-, alpha 1B- and alpha 1C-adrenoceptors expressed in rat 1 fibroblasts. 5. The affinities of prazosin, WB 4101, 5-methyl-urapidil, phentolamine and benoxathian at cloned alpha 1A/D-receptors were consistent with alpha 1A affinities determined with chlorethylclonidine-treated rat cortical membranes. Affinities at cloned XIB-receptors were consistent with alpha 1B affinities determined with rat liver membranes.6. Using the epididymal rat vas deferens as a functional measure of alpha 1A affinity, prazosin (pA29.23 +/- 0.28), WB 4101 (pA2 9.58 +/- 0.12), phentolamine (pKB 7.90 +/- 0.16), benoxathian (pKB 9.21 +/- 0.21)and 5-methyl-urapadil (pKB 8.51 +/-0.16) were potent antagonists of noradrenaline-induced contractions.7. At present, evidence from cloning studies suggests the existence of at least three alpha 1-adrenoceptor subtypes. In contrast to the recent proposal for alpha l-adrenoceptor classification, the pharmacology of the cloned alpha 1A/D (or alpha lD)-adrenoceptor is more consistent with that of an alpha 1A-adrenoceptor characterized in rat cerebral cortex and vas deferens.

Changes in [3H]-PK 11195 and [3H]-8-OH-DPAT binding following forebrain ischaemia in the gerbil.

1. A high density of [3H]-PK 11195 binding sites was present in gerbil cortical membranes (Bmax [3H]-PK 11195 1360 +/- 71 fmol mg-1 protein) in comparison to rat cortical membranes (254 +/- 21 fmol mg-1 protein). This effect was species-specific as similar findings were obtained with hippocampal membranes (Bmax 1430 +/- 111 fmol mg-1 protein in gerbil, compared to 196 +/- 31 in rat). 2. RO 5-4864, also a peripheral type benzodiazepine compound, displayed low affinity for the [3H]-PK 11195 site in the gerbil (pKi 6.57 +/- 0.02 and 6.70 +/- 0.12 in hippocampus and cortex respectively) compared to rat (pKi 8.16 +/- 0.07 and 8.48 +/- 0.02). Central benzodiazepine compounds, diazepam and flunitrazepam, also displayed this trend. 3. RO 5-4864 displaced [3H]-PK 11195 binding from gerbil and rat cortical membranes through a competitive interaction with Hill slopes close to unity. In both tissues, saturation isotherms of [3H]-PK 11195 binding indicated that the presence of RO 5-4864 caused changes in Kd without any effect on Bmax. In kinetic experiments, the presence of RO 5-4864 failed to modify the rate of dissociation of [3H]-PK 11195 from equilibrium in both rat and gerbil cortical membranes. 4. Forebrain ischaemia in the Mongolian gerbil (5 min bilateral carotid artery occlusion) with 7 days recovery caused a significant (P<0.05) decrease in the density of hippocampal 5-HTlA binding sites labelled by [3H]-8-OH-DPAT (Bmax control, 393 +/- 33 fmol mg-1 protein; ischaemic, 289 +/- 21 fmol mg protein)and an increase (P<0.01) in [3H]-PK 11195 binding sites (Bmax control, 1430 +/- 111 fmol mg-1 protein; ischaemic, 2160 +/- 170 fmol mg-1 protein). Ischaemia and recovery had no effect on the affinity of either ligand.5. Autoradiography experiments in gerbil brain sections revealed that the ischaemia-induced increase in[3H]-PK 11195 binding was consistent and significant in the CA, subfield on the hippocampus (control,152 +/- 42 fmol mg-1 tissue; ischaemic, 314 +/- 43 fmol mg-1 tissue).

Modulation of alpha 1-adrenoceptors in rat left ventricle by ischaemia and acyl carnitines: protection by ranolazine.

Myocardial alpha 1-adrenoceptor number has been reported to increase during ischaemia in myocytes consequent to an increase in acyl carnitine levels. We investigated whether this phenomenon occurs in vivo and whether the novel antiischaemic agent ranolazine will protect against it. Thirty-minute occlusion of the left anterior descending coronary artery (LAD) in anaesthetised rats produced an approximate doubling of the left ventricular (LV) alpha 1-adrenoceptor population. The carnitine palmitoyl transferase 1 (CPT1) inhibitor sodium 2-[5-(4-chlorophenyl)-pentylene]oxiran-2-carboxylate (POCA 100 micrograms/kg) reduced this ischaemia-induced increase when administered intraperitoneally (i.p.) 15 min before ischaemia and abolished the increase when administered intravenously (i.v.). The CPT1 inhibitor sodium 2-tetradecyl oxirane carboxylate dihydrate (TGDA) (500 micrograms/kg) inhibited the upregulation when administered i.p. and significantly decreased alpha 1-adrenoceptor density when administered i.v.; however, this agent, unlike POCA, reduced [3H]-prazosin binding directly. The alpha 1-adrenoceptor antagonist prazosin (100 micrograms/kg i.v.) did not prevent the increase. Direct addition of palmitoyl carnitine (10 microM) to membranes from nonischaemic myocardium caused a doubling in alpha 1-adrenoceptor number, and this effect was selective for heart membranes as compared with cerebral cortex; beta-adrenoceptor number was not modified. Ranolazine (500 micrograms/kg) inhibited upregulation when administered 15 min i.v. before ischaemia or after 3-day twice-daily (b.i.d.) i.p. pretreatment. This drug did not inhibit CPT1 directly.(ABSTRACT TRUNCATED AT 250 WORDS)

Identification of a novel calcium antagonist binding site in rat brain by SR 33557.

1. In K(+)-depolarized taenia preparations from guinea-pig caecum SR 33557 was a potent antagonist of Ca(2+)-induced contractions and antagonized the effect of the calcium channel activator Bay K 8644. 2. SR 33557 displayed high affinity (pKi 9.54 +/- 0.04, nH 1.01) for the [3H]-(+/-)-PN 200-110 binding site in rat cerebral cortex membranes. In the presence of 5 mM Ca2+ this affinity was reduced (pKi 8.82 +/- 0.01, nH 1.05) whilst the affinity of nitrendipine was unaffected by this concentration of Ca2+. 3. Saturation binding experiments in rat cerebral cortex carried out in the absence and presence of SR 33557 (0.1-1.0 nM) indicated an apparently competitive interaction at the dihydropyridine site, in that SR 33557 reduced the KD of [3H]-(+/-)-PN 200-110 binding without any effect on Bmax. In kinetic experiments, the rate of dissociation of [3H]-(+/-)-PN 200-110 from rat cerebral cortex was unchanged in the presence of SR 33557 (5 nM). 4. D-cis-diltiazem fully reversed the inhibition [3H]-nitrendipine binding to rat cerebral cortex produced by SR 33557 indicating the site of action of SR 33557 to be distinct from the dihydropyridine (DHP) binding site. 5. Saturation analysis indicated that [3H]-SR 33557 (0.01-0.8 nM) labelled a single class of binding sites in rat cerebral cortex membranes with high affinity (KD 0.12 +/- 0.01, Bmax 222 +/- 20 fmol mg-1 protein), although kinetic data indicated the existence of negative cooperativity between the binding sites. 6.In competition studies, a variety of different calcium antagonists displayed similar affinity for [3H]-SR 33557 and [3H]-(+/-)-PN 200-110 sites. The [3H]-SR 33557 site was sensitive to the inhibitory effect of divalent cations. The affinity of Cd2+ was 0.026 +/- 0.015 mM and the rank order of affinity was Cd2+ >Ca2+ >Mn2+ >Mg2+ >Na+.7. We propose that SR 33557 labels a distinct site in rat cerebral cortex. The coupling between the SR 33557 and DHP site appears to be very close, resulting in apparently competitive interactions in some experimental protocols but can be revealed as negatively allosteric in other circumstances.

[3H]-RS-15385-197, a selective and high affinity radioligand for alpha 2-adrenoceptors: implications for receptor classification.

1. RS-15385-197 is the most potent and selective alpha 2-adrenoceptor antagonist available. We have used [3H]-RS-15385-197 to define alpha 2-adrenoceptor subtypes. The binding of [3H]-RS-15385-197 to membranes of rat cerebral cortex, rat neonatal lung and human platelets was reversible, saturable and of high affinity. Saturation experiments indicated that [3H]-RS-15385-197 bound to a single population of sites in all 3 tissues with high affinity (0.08-0.14 nM). The density of sites labelled by [3H]-RS-15385-197 was greater in the cortex (275 fmol mg-1 protein) than in the neonate lung (174 fmol mg-1 protein) and human platelet (170 fmol mg-1 protein). The density of sites labelled with [3H]-RS-15385-197 in the cortex was significantly greater than that labelled with [3H]-yohimbine (121 fmol mg-1 protein). 2. The selective alpha 2-adrenoceptor antagonists, idazoxan, yohimbine, rauwolscine and WY 26703 displaced [3H]-RS-15385-197 binding to rat cerebral cortex in a simple manner with Hill slopes close to unity. The affinities derived for these antagonists against [3H]-RS-15385-197 were similar to the values obtained for the displacement of [3H]-yohimbine indicating the alpha 2-adrenoceptor nature of the binding site. 3. alpha 2A-Adrenoceptor selective compounds, oxymetazoline and BRL 44409, showed high affinity for [3H]-RS-15385-197 binding in the human platelet and lower affinity in the neonate lung, while the alpha 2B-selective compounds, prazosin and imiloxan, showed high affinity for [3H]-RS-15385-197 binding in the neonate lung.This suggests that [3H]-RS-15385-197 labels both alpha2A- and alpha2B-adrenoceptor subtypes.4. Prazosin and methysergide inhibited the binding of [3H]-RS-15385-197 in the rat cerebral cortex in a simple manner consistent with an interaction at a single site. Although oxymetazoline inhibited [H]-RS- 15385-197 with a Hill slope significantly different from unity, the slope was increased to unity in the presence of Gpp(NH)p, suggesting an agonist-like interaction.5. The site labelled by [3H]-RS-15385-197 in the rat cortex shows high affinity for oxymetazoline and low affinity for prazosin which could be taken as evidence for classifying the site as an alpha2A-subtype.However, the affinities of yohimbine, rauwolscine and oxymetazoline at this site do not correspond to the population of sites in the human platelet. Yohimbine and rauwolscine were 20 fold selective for the platelet alph2A-subtype, whereas phentolamine was 2 fold and imiloxan was 10 fold selective for the cortex subtype. Indeed although the site showed some similarities with the alpha2A-subtype, the highest degree of homology was observed between this site and the rat submaxillary gland and the RG20 clone,tentatively called the alpha2D-adrenoceptor subtype. We propose that the alpha2-adrenoceptor in the rat cortex may therefore correspond to the putative alpha2D-subtype of the adrenoceptor.

Selective antagonism of calcium channel activators by fluspirilene.

1. Fluspirilene has been claimed to bind to a high affinity site in the calcium channel in skeletal muscle. We have investigated its calcium-antagonistic effects in smooth muscle and affinity for the channel in radioligand binding assays. 2. Fluspirilene was weakly active as an antagonist of Ca2(+)-induced contractions in K(+)-depolarized taenia preparations from the guinea-pig caecum, with threshold antagonism starting from concentrations of 30 nM. Nitrendipine, nicardipine and nimodipine were very potent antagonists in this model (threshold antagonism, greater than 1 nM). 3. In contrast, fluspirilene (10-1000 nM) was a potent non-competitive antagonist of the effects of Bay K 8644 (1-3000 nM) on Ca2(+)-induced contractions and, at 10 nM, selectively antagonised the effects of Bay K 8644, abolished the Ca2(+)-channel activator effects of CGP 28392, without changing the calcium antagonist effects of nitrendipine, or modifying the sensitivity of the tissues to Ca2+. In contrast, the dihydropyridines were more effective as antagonists of Ca2+ than of Bay K 8644. Fluspirilene therefore selectively antagonised the effects of dihydropyridine Ca2+ channel activators without affecting the antagonist potency. 4. In radioligand binding experiments, fluspirilene was a potent displacer of [3H]-PN-200-110 binding to rat cerebral cortical membranes (EC50 30 nM), albeit with a low Hill slope (0.66), and was more potent than other lipophilic diphenylalkylamines such as flunarizine and lidoflazine. Fluspirilene interacted non-competitively with [3H]-PN-200-110 and increased dissociation of the radioligand.

Muscarinic activity of McN-A-343 and its value in muscarinic receptor classification.

The affinity and potency of McN-A-343 (4-(m-chlorophenyl-carbamoyloxy) -2-butynyltrimethylammonium chloride) has been assessed at a range of M1 and M2 muscarinic receptors. McN-A-343 was shown to act as a full agonist at M2 receptors present in the guinea-pig isolated taenia caeci (-log EC50 = 5.14). McN-A-343 exhibited no agonist action in the guinea-pig ileum, atria, bladder or trachea. McN-A-343 was not selective in terms of affinity since its dissociation constants at M1 and M2 binding sites in the rat cerebral cortex and myocardium respectively, were very similar (cortical pPKi = 5.05; myocardial pKi = 5.22). The selectivity previously reported for the compound may be due to differences in intrinsic efficacy and/or tissue receptor reserve. Based on differential antagonist affinities, the muscarinic receptor profile of the taenia caeci, trachea and bladder was similar to that observed in the ileum, but dissimiliar to that observed in the atria.