In vivo assessment of acceleration of motor activity associated with acetylcholine release via 5-hydroxytryptamine4 receptor in dog intestine

Effect of mosapride, a benzamide, on the motor activity associated with the release of endogenous acetylcholine (ACh) from enteric neurons was examined in the ileum of anesthetized dogs using an in vivo microdialysis method and compared with the effect of 5-hydroxytryptamine (5-HT). Intraarterial administration of 5-HT accelerated intestinal motor activity and increased the concentration of dialysate ACh, and the responses were inhibited by SB204070, a specific 5-HT4-receptor antagonist, but were apparently not affected by methiothepin, ketanserin and granisetron. Intraarterial administration of mosapride, a prokinetic benzamide, accelerated intestinal motor activity and the concentration of dialysate ACh increased. The effects of mosapride were antagonized by SB204070. Specific [125I]SB207710 binding was observed in the myenteric and submucosal plexuses and muscle layers of dog ileum by in vitro receptor autoradiography. High densities of [125I]SB207710 binding sites were detected in the myenteric and submucosal plexuses. Mosapride as well as SB204070 inhibited [125I]SB207710 binding. Thus, in the whole body of dogs, 5-HT and mosapride accelerated the intestinal motor activity due to the increases in ACh release mediated by stimulation of the 5-HT4 receptor.     

Labelling with [125I]-SB 207710 of a small 5-HT4 receptor population in piglet right atrium: functional relevance.

1. We investigated the affinity of SB 207710 for sinoatrial 5-HT4 receptors and the density of right atrial 5-HT4 receptors with [125I]-SB 207710 in right atria of new-born piglets. 2. SB 207710 (1-100 nM) antagonized the 5-HT-evoked tachycardia surmountably with a pKB of 9.8. 3. [125I]-SB 207710 (5-1500 pM) labelled a small population of saturable binding sites with a pKD of 10.1 and with 5-HT4 receptor characteristics. The density of atrial binding sites with 5-HT4 receptor characteristics was 174 and 22 times lower respectively than those of atrial beta 1- and beta 2-adrenoceptors, labelled with (-)-[125I]-cyanopindolol. 4. We suggest that the small 5-HT4 receptor population may in part explain why the maximal tachycardia caused by 5-HT is smaller than that caused by catecholamines.     

Ability of mosapride to bind to 5-HT4 receptor in the human stomach.

Ability of mosapride, a gastrokinetic agent, to bind to 5-HT4 receptor was examined in the stomach of human and guinea pig by in vitro receptor autoradiography. [125I]SB207710 binding sites were detected in the muscle layer including the myenteric plexus of the stomach from both humans and guinea pigs, although the binding was observed more clearly and densely in the stomach of guinea pigs than humans. Mosapride as well as SB204070 inhibited the binding of [125I]SB207710. Thus, mosapride possesses the ability to bind to 5-HT4 receptors of human stomach and may modulate the motility, as in the case of guinea pig stomach.     

Facilitation of acetylcholine release by SK-951, a benzofuran derivative, via the 5-hydroxytryptamine4 receptor in guinea pig stomach

Facilitation of acetylcholine (ACh) release by SK-951 ((-)4-amino-N-[2-(1-azabicyclo[3.3.0] octan-5-yl)ethyl]-5-chloro-2,3-dihydro-2-methylbenzo[b]furan-7-carboxami de hemifumarate), a benzofuran derivative, via the 5-hydroxytryptamine (5-HT)4 receptor in guinea pig stomach was examined by in vitro receptor autoradiography and functional studies. [125I]SB207710 binding was detected in the myenteric plexus of the gastric corpus. High densities of binding sites were observed in the myenteric plexus and a moderate density in the muscle layer. SK-951 inhibited the binding of [125I]SB207710, a specific 5-HT4-receptor ligand, as in the case of SB204070, a specific 5-HT4-receptor antagonist, thus indicating the presence of 5-HT4 receptors in guinea pig stomach. SK-951 as well as 5-HT enhanced the electrically stimulated twitch contractions of gastric corpus strips, which were sensitive to tetrodotoxin and atropine, and enhanced electrically stimulated release of ACh from corporal strips, which was tetrodotoxin-sensitive and Ca2+-dependent. The enhancements of twitch contractions and ACh release by SK-951 were antagonized by GR113808, a selective 5-HT4-receptor antagonist. Thus, SK-951 binds to 5-HT4 receptors of the guinea pig gastric corpus and may accelerate gastric motility due to facilitation of ACh release.     

Localization of the 5-HT(4) receptor in the human and the guinea pig colon

The functions of the 5-HT(4) receptor in the gastrointestinal tract are complex, depending on the species and anatomical regions, and localization of the receptor was not clear. The present study attempted to examine the localization of the 5-HT(4) receptor in the colon of human for comparison with that in guinea pig colon. Human specimens of sigmoid colon and the distal colon of guinea pig were used for in vitro receptor autoradiography using [125I]SB207710, (1-n-butyl-4-piperidinyl) methyl-8-amino-7-iodo-1, 4-benzodioxane-5-carboxylate, as a ligand. [125I]SB207710 binding sites were distributed over the muscle layer of human colon, in the myenteric plexus and in the muscle. In the guinea pig colon, a much higher density was detected in the myenteric plexus than in the muscle. Therefore, in the human and guinea pig colon, the 5-HT(4) receptor was located both in the myenteric plexus and in the muscle, and in the guinea pig colon, the receptor was located more predominantly in the myenteric plexus of the muscle than it is in the human colon.     

Regional difference in correlation of 5-HT4 receptor distribution with cholinergic transmission in the guinea pig stomach.

Localization and function of 5-HT4 receptors in the stomach were examined in mucosa-free preparations of antrum, corpus and fundus from guinea pig stomach by determination of acetylcholine release and in vitro receptor autoradiography. Specific [125I]SB207710, (1-n-butyl-4-piperidinyl) methyl-8-amino-7-iodo-1,4-benzodioxane-5-carboxylate, binding sites were detected in 3 regions of the stomach. High densities of binding were observed in the myenteric plexus of antrum and corpus, but not fundus. In mucosa-free preparations treated with 5-HT1, 5-HT2 and 5-HT3 receptor antagonists, 5-HT (10(-8)-10(-6) M) potentiated the electrically stimulated (0.5 Hz, 1 ms) outflow of [3H]acetylcholine from antrum and corpus strips preloaded with [3H]choline, but not from fundus strips, and the potentiation was antagonized by SB204070, (1-n-butyl-4-piperidinyl) methyl-8-amino-7-chloro-1,4-benzodioxane-5-carboxylate. Thus, 5-HT4 receptors are located on myenteric cholinergic neurons in the antrum and corpus of guinea pig stomach and their activation evokes the release of acetylcholine.     

Repeated administration of MDMA causes transient down-regulation of serotonin 5-HT2 receptors.

The present study examined short- and long-term effects of MDMA (3,4-methylene-dioxymethamphetamine) on serotonin (5-HT2 and 5-HT1c) receptors in the brain of the rat. N1-Methyl-2-[125I]lysergic acid diethylamide ([125I]MIL) was used to label these receptors in vitro and in vivo. The usefulness of [125I]MIL for in vivo detection of changes in 5-HT2 receptors was confirmed in preliminary experiments in which rats were treated chronically with mianserin (5 mg/kg, once daily for 10 days). Decreases in specific in vivo binding of [125I]MIL, after treatment with mianserin were found to be of the same magnitude as those determined by others, using in vitro methods. The MDMA (8 doses; 5-20 mg/kg each) was administered to rats over a period of 4 days. At various times after administration of the last dose of MDMA, the binding of [125I]MIL was measured. Acutely, treatment with MDMA (20 mg/kg) reduced specific in vivo binding of [125I]MIL in all regions of brain studied. For example, in the frontal cortex, specific binding of [125I]MIL was decreased by 80% at 6 hr and by 62% at 24 hr, after cessation of treatment with MDMA. Twenty-one days after administration of MDMA however, the number of binding sites for [125I]MIL was back to control levels. Reductions in in vivo binding of [125I]MIL in frontal cortex were dependent on the dose of MDMA injected and were associated with decreases in the number of binding sites for [125I]MIL (Bmax values) in tissue homogenates of the same area. Autoradiographic studies of MDMA-treated rats confirmed the decreased density of 5-HT2 receptors and also suggested that the 5-HT1c receptor of the choroid plexus was not affected. These results indicate that repeated administration of MDMA caused transient down-regulation of 5-HT2 receptors in the brain of the rat. Further, they demonstrated that [125I]MIL is a suitable radioligand for labeling 5-HT2 receptors, both in vitro and in vivo. Once labeled with an appropriate radionuclide for SPECT (single photon emission computed tomography) or PET (positron emission tomography), MIL should prove useful for monitoring changes in the density of serotonin receptors in the living mammalian brain.     

5-HT1D binding sites in various species: similar pharmacological profile in dog,monkey, calf,guinea-pig and human brain membranes

Summary Radioligand binding studies were performed in membranes of calf caudate, guinea-pig cortex, dog caudate and whole brain, monkey caudate and whole brain, and human caudate using the novel iodinated radioligand, Serotonin-5-O-Carboxymethyl-Glycyl[¹²⁵I] Tyrosinamide (abbreviated [¹²⁵I]GTI for the sake of simplicity), a ligand known to label 5-HT _1B and 5-HT _1D sites.In all membrane preparations tested, [¹²⁵I]GTI labelled high affinity sites with the following rank order of affinity: 5-carboxamidotryptamine > 5-HT = DHE = ergotamine >- sumatriptan >- metergoline = CGS 12066 >- yohimbine = methysergide >- methiothepin > 8-OHDPAT >_ mianserin >- CP 93129 >- (–)pindolol = ketanserin >_ isamoltane = mesulergine >- corynanthine = spiperone > MDL 72222. The affinity profiles were very similar in the membranes of the different species, especially in dog, monkey and human brain. The pharmacological profile of [1251]GTI binding (determined with up to 25 different drugs) was fully comparable to the binding profile reported previously in human substantia nigra (using [1251]GTI) or in a variety of brain preparations known to contain 5-HTID sites using [³H]5-HT as a radioligand.Although, the affinity profiles obtained in the various preparations displayed statistically highly significant correlations with slope values close to one, some drugs displayed slight species-related variations in affinity, as already reported in rabbit brain (see Xiong and Nelson 1989; Hoyer et al. 1992, accompanying report).The present report 1) establishes for the first time the pharmacological profile of 5-HT1D sites in dog and monkey brain, 2) shows that the pharmacological characteristics of these sites is indeed very similar in the brain of a variety of species including man, and 3) demonstrates the advantageous features of [1251]GTI as an iodinated 5-HT_1D radioligand which can be used without the need to mask the binding to other 5-HT receptor subtypes. Correspondence to D. Hoyer at the above address     

5-Hydroxytryptamine receptors,especially the 5-HT4 receptor,in guinea pig urinary bladder

The function of 5-hydroxytryptamine (5-HT) receptors, especially the 5-HT4 receptor, in the urinary bladder were examined in preparations isolated from the guinea pig by in vitro receptor autoradiography and determinations of mechanical activity and acetylcholine (ACh) release. Specific [125I]SB207710 binding sites were detected evenly throughout the urinary bladder. 5-HT (3 x 10(-8)-10(-4) M) caused contractions of strips of the urinary bladder, in a concentration dependent manner. Ketanserin antagonized the 5-HT-induced contractions, while granisetron and SB204070 antagonized the contractions induced by high concentrations of 5-HT. Atropine inhibited the contractions induced by high concentrations of 5-HT. Ketanserin prevented the 5-HT-induced contractions in the presence of atropine, but granisetron and SB204070 did not affect the contractions under such a condition. 5-HT enhanced the electrically-stimulated (5 Hz, 0.5 ms) outflow of [3H]acetylcholine from strips preloaded with [3H]choline, and the enhancement was antagonized by granisetron and SB204070. Thus, the contractile response to 5-HT was mediated by activations of 5-HT2, 5-HT3 and 5-HT4 receptors. The 5-HT2 receptor may be a property of high affinity to 5-HT and located on the smooth muscle cells. The 5-HT4 as well as 5-HT3 receptor may be a property of low affinity to 5-HT and located on the cholinergic neurons.     

[3H]Ketanserin labels 5-HT2 receptors and α1-adrenoceptors in human and pig brain membranes

The binding characteristics of [3H]ketanserin (a reported selective radioligand for serotonin 5-HT2 receptors) and [125I]BE 2254 (which labels selectively alpha 1-adrenoceptors) were characterized in brain frontal cortex membranes of pig and man. Saturation experiments indicated that both radioligands label apparently a homogeneous class of binding sites in human and pig fontal cortex membranes. Competition experiments with [125I]BE 2254 using 17 agonists and antagonists showed monophasic and steep curves in human and pig frontal cortex membranes. The pharmacological profile of these sites is typical of alpha 1-adrenoceptors. In competition experiments with [3H]ketanserin, most of the tested compounds displayed shallow or biphasic curves. In particular, alpha 1-adrenoceptor-selective antagonists (prazosin, WB 4101, BE 2254...) displaced with nanomolar affinity about 15 and 40% of the specific [3H]ketanserin binding in human and pig frontal cortex membranes, respectively. The minor component of [3H]ketanserin binding correlated highly significantly with [125I]BE 2254 binding in both membrane preparations. The major component of [3H]ketanserin binding to pig and human frontal cortex membranes correlated significantly with [3H]ketanserin binding in rat brain cortex membranes (which is essentially to 5-HT2 receptors). The present data demonstrate that [3H]ketanserin in nanomolar concentrations binds significantly to alpha 1-adrenoceptors in human and pig frontal cortex membranes; this suggests a rather limited degree of selectivity of ketanserin for 5-HT2 receptors in pig and human tissues.     

Multiple conformations of native and recombinant human 5-hydroxytryptamine(2a) receptors are labeled by agonists and discriminated by antagonists

We have expanded previous studies with the 5-hydroxytryptamine (5-HT)(2) receptor agonist (+/-)-1-(2,5-dimethoxy-4-[(125)I]iodophenyl)-2-aminopropane [(+/-)-[(125)I]DOI] in human brain that had shown biphasic competition curves for several 5-HT(2A) receptor antagonists by using new selective antagonists of 5-HT(2A) (MDL100,907) and 5-HT(2C) (SB242084) receptors together with ketanserin and mesulergine. Autoradiographic competition experiments were performed with these antagonists in human brain regions where (+/-)-[(125)I]DOI labels almost exclusively 5-HT(2A) receptors (frontal cortex and striosomes). Furthermore, the effect of uncoupling receptor/G protein complexes on antagonist competition was studied with guanosine-5'-(beta,gamma-imido)triphosphate [Gpp(NH)p]. Competition experiments with (+/-)-[(3)H]1-(4-bromo-2,5-dimethoxyphenil)-2-aminopropane [(+/-)-[(3)H]DOB] were also performed in membranes from Chinese hamster ovary cells (CHOFA4) expressing cloned human 5-HT(2A) receptors. In both systems, ketanserin and MDL100,907 displayed biphasic competition profiles, whereas SB242084 and mesulergine competed monophasically. In absence of antagonist, 100 microM Gpp(NH)p decreased brain (+/-)-[(125)I]DOI specific binding by 40 to 50% and (+/-)-[(3)H]DOB specific binding to CHOFA4 cells by 30%. The remaining agonist-labeled uncoupled sites were still displaced biphasically by ketanserin and MDL100,907, with unaltered affinities. Saturation experiments were performed in CHOFA4 cells. (+/-)-[(3)H]DOB labeled two sites (K(d(h))= 0.8 nM, K(d(l)) = 31.22 nM). Addition of 100 microM Gpp(NH)p resulted in a single low-affinity (K(d) = 24.44 nM) site with unchanged B(max). [(3)H]5-HT showed no specific binding to 5-HT(2A) receptors. These results conform with the extended ternary complex model of receptor action that postulates the existence of partly activated receptor conformation(s) (R*) in equilibrium with the ground (R) and the activated G protein-coupled (R*G) conformations. Thus, both in human brain and CHOFA4 cells, the agonists possibly label all three conformations and ketanserin and MDL100,907 recognize with different affinities at least two of these conformations.     

Autoradiographic analysis of somatostatin SRIF1 and SRIF2 receptors in the human brain and pituitary

The distribution of somatostatin (SRIF) receptor sites was studied by in vitro receptor autoradiography in the human brain and pituitary using the SRIF₁ (sst₂) receptor selective [¹²⁵I]Tyr³-octreotide, the non-subtype selective [¹²⁵I]LTT-SRIF-28 ([Leu⁸,D-Trp²²,¹²⁵I-Tyr²⁵]SRIF-28) and the SRIF₂-receptor selective [¹²⁵I]CGP 23996 (c[Asu-Lys-Asn-Phe-Phe-Trp-Lys-Thr-Tyr-Thr-Ser]) in buffer containing 120 mM Na⁺. SRIF receptor autoradiography was compared with mRNA expression of somatostatin receptors sst_1–5 as studied by in situ hybridisation in human brain. High levels of [¹²⁵I]LTT-SRIF-28 and [¹²⁵I]Tyr³-octreotide recognition sites were found in the deep layers of cerebral cortex and molecular layer of cerebellum of the human brain. The hypothalamus, choroid plexus, most areas of the brainstem and dentate nucleus were associated with low levels of binding. In contrast to [¹²⁵I]LTT-SRIF-28 and [¹²⁵I]Tyr³-octreotide, no difference was observed for [¹²⁵I]CGP 23996 labelling in the various layers of cerebral cortex. The choroid plexus, substantia nigra and molecular layer of the cerebellum presented high densities of [¹²⁵I]CGP 23996 binding sites whereas no binding was observed in the hypothalamus and locus coeruleus using this radioligand. Both lobes of the human pituitary displayed low levels of [¹²⁵I]LTT-SRIF-28 and [¹²⁵I]Tyr³-octreotide binding. By contrast, the anterior lobe of the pituitary displayed very high levels of [¹²⁵I]CGP 23996 labelled sites whereas intermediate levels were found in the posterior lobe. There was a partial overlap between sst₂ receptor mRNA and [¹²⁵I]Tyr³-octreotide binding, although the distribution of the binding sites was much wider than that of receptor mRNA. The same observation was made for sst₁ and/or sst₄ receptor mRNA and [¹²⁵I]CGP 23996 labelled sites. The present data show that SRIF₁ and SRIF₂ receptors are present in the human brain with different distributions, especially in the cerebral cortex and the pituitary. The very similar distribution of sites labelled with [¹²⁵I]LTT-SRIF-28 and [¹²⁵I]Tyr³-octreotide suggests (i) that sst₂ receptors are predominant within the SRIF₁ family in the human brain and (ii) that [¹²⁵I]LTT-SRIF-28 under the conditions used in the present study, does not significantly label SRIF₂ sites. Received: 8 August 1996 / Accepted: 8 November 1996     

125I]-2-(2,5-dimethoxy-4-iodophenyl)aminoethane ([125I]-2C-I) as a label for the 5-HT2 receptor in rat frontal cortex

Recent studies of 5-HT2 receptor binding have involved the use of radiolabeled agonists. This report describes the use of [125I]-2-(2,5-dimethoxy-4-iodophenyl)aminoethane ([125I]-2C-I) as a label for low-density 5-HT2 agonist binding sites. A nonhydrolyzable analog of GTP, GppNHp, was found to inhibit the high affinity binding of [125I]-2C-I. 5-HT and several 5-HT2 agonists and antagonists displayed high affinity for this site. In addition, a significant decrease in the Bmax value, but not the KD for [125I]-2C-I was observed at 37 degrees C as compared to that observed at 24 degrees C. Several structure-activity relationships were investigated for displacement of [125I]-2C-I, and the results are consistent with the importance of this receptor in the mechanism of action of hallucinogens. This study demonstrates the utility of [125I]-2C-I as a novel radioligand and provides further data that the 5-HT2 receptor is significantly linked to hallucinogenic activity for several compounds.     

Effects of mosapride citrate,a 5-HT4 receptor agonist,on colonic motility in conscious guinea pigs

It is known that 5-HT(4) receptors in the colon of guinea pigs show a distribution similar to that in humans. Thus, we examined the effects of mosapride citrate (mosapride) and cisapride, two 5-HT(4)-receptor agonists, on colonic motility in conscious guinea pigs implanted with force transducers. Mosapride and cisapride administered intragastrically at doses of 3 - 30 mg/kg significantly enhanced the colonic motility. The enhancing effect of mosapride was antagonized by atropine or GR113808, a 5-HT(4)-receptor antagonist, but not by methysergide, a 5-HT(1)- and 5-HT(2)-receptor antagonist; ondansetron, a 5-HT(3)-receptor antagonist; or CP-99994, a tachykinin NK(1)-receptor antagonist. In vitro receptor autoradiography showed that mosapride and cisapride inhibit the specific binding of [(125)I]-SB207710, a selective radioligand of 5-HT(4) receptors, in the colon of guinea pigs. These results suggest that mosapride enhances colonic motility through the 5-HT(4)-receptor activation in guinea pigs and may be useful for treating constipation in patients with colonic motility dysfunction.     

Characterization of [(125)I]-SB-258585 binding to human recombinant and native 5-HT(6) receptors in rat, pig and human brain tissue

SB-258585 (4-Iodo-N-[4-methoxy-3-(4-methyl-piperazin-1-yl)-phenyl]-benzen esulphonamide) is a high affinity ligand at 5-HT(6) receptors. It displays over 100 fold selectivity for the 5-HT(6) receptor over all other 5-HT receptors tested so far. SB-258585 has been radiolabelled, to high specific activity, for its characterization as a 5-HT(6) receptor selective radioligand. [(125)I]-SB-258585 bound, with high affinity, to a single population of receptors in a cell line expressing human recombinant 5-HT(6) receptors. Kinetic and saturation binding experiments gave pK(D) values of 9.01+/-0.09 and 9.09+/-0.02, respectively. In membranes derived from rat or pig striatum and human caudate putamen, [(125)I]-SB-258585 labelled a single site with high levels (>60%) of specific binding. Saturation analysis revealed pK(D) values of 8.56+/-0.07 for rat, 8.60+/-0.10 for pig and 8.90+/-0.02 for human. B(max) values for the tissues ranged from 173+/-23 and 181+/-25 fmol mg(-1) protein in rat and pig striatum, respectively, to 215+/-41 fmol mg(-1) protein in human caudate putamen. The pK(i) rank order of potency for a number of compounds, determined in competition binding assays with [(125)I]-SB-258585, at human caudate putamen membranes was: SB-271046>SB-258585>SB-214111>methiothepin>clozapine>5-Me-OT>5-HT>Ro 04-6790>mianserin>ritanserin=amitriptyline>5-CT>mesulergine. Similar profiles were obtained from pig and rat striatal membranes and recombinant 5-HT(6) receptors; data from the latter correlated well with [(3)H]-LSD binding. Thus, [(125)I]-SB-258585 is a high affinity, selective radioligand which can be used to label both recombinant and native 5-HT(6) receptors and will facilitate further characterization of this receptor subtype in animal and human tissues.     

Homogeneous 5-HT1D recognition sites in the human substantia nigra identified with a new iodinated radioligand.

The novel iodinated radioligand, serotonin-5-O-carboxymethyl-glycyl[125I] tyrosinamide, was used for binding studies with membranes of human substantia nigra. Evidence is provided for the existence in this tissue of a homogeneous population of recognition sites with the pharmacological profile of the 5-HT1D site.     

The anti-aggressive drug eltoprazine preferentially binds to 5-HT1A and 5-HT1B receptor subtypes in rat brain: sensitivity to guanine nucleotides

Eltoprazine (DU 28853) inhibits offensive aggressive behaviour in several animal species. We characterized the binding of radiolabelled eltoprazine in rat brain by autoradiography. [3H]Eltoprazine displayed saturable and high-affinity binding to several brain areas, including the basal ganglia, hippocampal formation and cerebral cortex (Kd values ranging from 4.2 to 9.5 nM). The maximal binding capacities (Bmax) for [3H]eltoprazine were similar to those for [3H]5-HT and were highest in the substantia nigra and subiculum. Competition with eltoprazine for [3H]ligand binding to the various 5-HT1 receptor subtypes revealed preferential binding to 5-HT1A (IC50 values ranging from 42 to 50 nM) and 5-HT1B (IC50 values ranging from 25 to 38 nM) recognition sites. The drug had moderate affinity for 5-HT1C sites (IC50 = 282 nM). Addition of GTP or its stable analogue Gpp(NH)p to the radioligand assay caused a marked reduction (50-90%) in both [3H]eltoprazine and [3H]5-HT binding. These effects were substantially less in the choroid plexus. The binding of the antagonist (-)[125I]Iodocyanopindolol ([125I]ICYP) to 5-HT1B recognition sites, as quantified in the subiculum and substantia nigra, was either unaltered or slightly enhanced by the addition of 10(-3) M GTP. Furthermore, GTP did not affect the competition for [125I]ICYP binding by the 5-HT1-antagonist methiothepin, whereas it did significantly reduce the displacement by eltoprazine, resulting in an almost twofold increase in IC50 values. The data indicate that the anti-aggressive drug eltoprazine preferentially binds to 5-HT1A and 5-HT1B receptor sites and that this interaction is modulated by guanine nucleotides.     

Characterisation of [125I]-Tyr0DTrp8-somatostatin binding in sst1- to sst4- and SRIF-gene-invalidated mouse brain

Five somatostatin receptors (sst) have been cloned and mRNAs for the first four (sst1-4) are expressed in many brain regions. In the present work, we compared the distribution of the non-selective ligand [125I]-Tyr0-DTrp8-SRIF14 by autoradiography in 24 brain regions and pituitary in wild type, sst1- to sst4- or SRIF-gene invalidated (KO) mice. [125I]-Tyr0-DTrp8-SRIF14 binding was not significantly modified in sst1 KO mouse brain with the noticeable exception of the substantia nigra and only moderately decreased in pituitary. For sst2 KO mice, a general decrease (>75%) was observed in most regions, with the noticeable exception of the olfactory bulb and CA1 field of the hippocampus. SST3 KO brain displayed a decrease in binding in the external plexiform layer of the olfactory bulb only (-54%). For sst4 KO mice, [125I]-Tyr0-DTrp8-SRIF14 binding levels in the external plexiform (-35%) and glomerular (-39%) layers of the olfactory bulb as well as the hippocampus CA1 field (-68%) were significantly decreased. In SRIF KO mice, a significant increase in binding levels was observed in olfactory bulb, anterior olfactory nucleus, frontal cortex upper layers, lateral septum, CA1 field, zona incerta and lateral hypothalamus, substantia nigra, periaqueductal grey and parabrachial nucleus. Competition with selective ligands (CH275, octreotide or L-779,976, L-796,778, L-803,087, and octreotide or L-817,778, for sst1-5 receptors, respectively) was in accordance with these findings. Moreover, octreotide was still able to compete on residual [125I]-Tyr0-DTrp8-SRIF14 binding sites in sst2 KO pituitary. It is concluded that most [125I]-Tyr0-DTrp8-SRIF14 binding sites in mouse brain and pituitary belong to the sst2 subtype but for the olfactory bulb (sst3 and sst4 receptors), the CA1 of the hippocampus (sst4 receptors) and the pituitary (sst5 and sst1 receptors) in which other subtypes are also expressed. The overall increase in [125I]-Tyr0-DTrp8-SRIF14 binding in SRIF KO mice indicates that SRIF receptors, mostly from the sst2 subtype, are regulated by the endogenous ligand(s).     

Adrenomedullin receptor binding sites in rat brain and peripheral tissues

The existence of specific adrenomedullin receptor binding sites was investigated using the agonist peptide fragment [125I]human adrenomedullin-(13-52) in rat brain, lung and vas deferens homogenates. Saturation-binding experiments suggest that [125I]human adrenomedullin-(13-52) binds to an apparent single population of sites with similar affinities (K(D) of 0.3 to 0.6 nM) but with different maximal binding capacity in the rat brain, lung and vas deferens homogenates (B(max) of 73, 1760 and 144 fmol/mg protein, respectively). Competition-binding experiments using various analogues and fragments of calcitonin gene-related peptide (CGRP) and adrenomedullin were also performed using this radioligand. Competition-binding profiles suggest the possible existence of heterogeneous populations of adrenomedullin receptor binding sites. For example, in rat brain, human adrenomedullin-(1-52) and human adrenomedullin-(13-52) competed against specific [125I]human adrenomedullin-(13-52) sites with competition curves best fitted to a two-site model. Additionally, human calcitonin gene-related peptide alpha (hCGRPalpha), [Cys(Et)(2,7)]hCGRPalpha and [[R-(R,(R*,S*)]-N-[2-[[5-amino-1-[[4-(4-pyridinyl)-1-piperazinyl]carbonyl]pentyl]amino]-1-[(3,5-dibromo-4-hydroxyphenyl)methyl]-2-oxoethyl]-4-(1,4-dihydro-2-oxo-3(2H)-quinazolinyl)-,1-Piperidinecarboxamide] (BIBN4096BS) competed against specific [125I]human adrenomedullin-(13-52) binding with profiles that were also best fitted to a two-site model. Furthermore, binding assays performed in the presence of GTPgammaS (100 microM) revealed that this compound inhibited 20% of specific [125I]human adrenomedullin-(13-52) sites in rat brain homogenates and competition curves of human adrenomedullin-(1-52) and [Cys(Et)(2,7)]hCGRPalpha against specific [125I]human adrenomedullin-(13-52) sites remained best fitted to a two-site model. Moreover, the existence of specific [125I]human adrenomedullin-(13-52) binding sites that are resistant to human adrenomedullin-(22-52) and human CGRP-(8-37) is suggested in the rat brain and vas deferens. Taken together, these data provide evidence for the possible existence of heterogeneous populations of adrenomedullin binding sites in rat brain and peripheral tissues.