Role of tachykinin receptors and melatonin in oxitocin secretion from isolated rat hypothalmo-neurohypophysial system.

Present investigations were undertaken to study the influence of peptide NK-1 and NK-2 receptor agonists and antagonists as well as substance P and neurokinin A (the natural ligands for these tachykinin receptors) on oxytocin (OT) release from isolated rat hypothalamo-neurohypophysial (H-N) system as well as to determine whether the tachykinin NK-1 and/or NK-2 receptors contribute to the response of oxytocinergic neurons to melatonin. The results show, for the first time, that highly selective NK-1 receptor agonist, i.e., [Sar(9),Met(O(2))(11)]-Substance P, enhances while the NK-1 receptor antagonist (Tyr(6),D-Phe(7),D-His(9))-Substance P (6-11) - sendide - diminishes significantly OT secretion; the latter peptide was also found to antagonize the substance P-induced hormone release from isolated rat H-N system, when used at the concentration of 10(-7) M/L. Melatonin significantly inhibited basal and substance P-stimulated OT secretion. Neurokinin A and the NK-2 receptor selective agonist (beta-Ala(8))-Neurokinin A (4-10) as well as the NK-2 receptor antagonist (Tyr(5),D-Trp(6,8,9),Lys-NH(2)(10))-Neurokinin A (4-10) were essentially inactive in modifying OT release from the rat H-N system in vitro. The present data indicate a distinct role for tachykinin NK-1 (rather than NK-2) receptor in tachykinin-mediated regulation of OT secretion from the rat H-N system. Under present experimental conditions, however, a role of respective tachykinin receptors in the response of oxytocinergic neurons to melatonin has not been found.     

The NK-1 Receptor and a Calcium-Phospholipid Pathway: Inositol Trisphosphate Production and Calcium Movements Induced by Selective Agonists of Neurokinin Receptors in Rat Parotid Glands

In the rat parotid gland, substance P has been shown to induce a phosphatidylinositol bisphosphate breakdown resulting in an inositol trisphosphate production. These data suggested that substance P activated a phospholipase C and thus mediated its effects through the calcium-phospholipid pathway. To determine which neurokinin (NK) receptor was involved in the substance P response, we have used selective agonists of the different NK receptors and examined their effects on both inositol trisphosphate production and calcium movements. A selective NK-1 receptor agonist, [Sar9Met(O2)11]-substance P, evoked an [3H]inositol trisphosphate production and a rapid and transient 45Ca2+ efflux. On the other hand, selective NK-2 and NK-3 receptor agonists, [beta-Ala8]-NKA(4-10) and [MePhe7]-NKB, respectively, were without effect. We conclude that, in the rat parotid glands, only the NK-1 receptors are coupled to the calcium-phospholipid pathway. The C-terminal part of substance P appeared to be sufficient to stimulate this route because the C-terminal octapeptide, substance P(4-11), mimicked substance P effects on both inositol trisphosphate production and calcium movements. The NK-2 and NK-3 receptors, if present in the rat parotid glands, are not associated with the calcium-phospholipid pathway.     

Selective agonists for receptors of substance P and related neurokinins

Neurokinins and their receptors are a complex system consisting of at least three endogenous agents--substance P (SP), neurokinin A (NKA), and neurokinin B (NKB)--and their corresponding receptor types, respectively, NK-1, NK-2, and NK-3. Investigations on receptors have been made using sensitive and fairly selective pharmacological preparations (the dog carotid artery for the NK-1, the rabbit pulmonary artery devoid of endothelium for the NK-2, and the rat portal vein for the NK-3 receptor), and some natural peptides of mammalian and nonmammalian origin. Because of the nonselectivity of the natural peptides, analogues of the neurokinins have been found that act on one receptor only and show therefore high selectivity. The selective agonists [Sar9,Met(O2)11]SP, [Nle10]NKA (4-10), and [MePhe7]-NKB have been used successfully for (a) characterizing the three neurokinin receptors, (b) identifying isolated organs whose responses to neurokinins depend on the activation of a single (monoreceptor systems) or of more than one (multireceptor systems) receptor, and (c) elucidating some of the physiological function of the three receptor types. It is suggested that NK-1 mediate peripheral vasodilatation and exocrine secretions, NK-2 stimulate bronchial muscles and facilitate the release of catecholamines, and NK-3 promote the release of acetylcholine in peripheral organs.     

Conformation-activity relationship of tachykinin neurokinin A (4-10) and of some [Xaa8] analogues.

NKA (4-10), the C-terminal heptapeptide fragment (Asp-Ser-Phe-Val-Gly-Leu-Met-NH2) of tachykinin NKA, is more active than the parent native compound in the interaction with the NK-2 receptor. Substitution of Gly8 with the more flexible residue beta-Ala8 increases its selectivity with respect to other two known receptors (NK-1 and NK-3), whereas substitution with either D-Ala8 or GABA8 deprives the peptide of its biological activity. These findings can be interpreted by a conformational analysis based on NMR studies in DMSO-d6 and in a DMSO-d6/H2O cryoprotective mixture combined with internal energy calculations. NKA(4-10) is characterized by a structure containing a type I beta-turn extending from Ser5 to Gly8, followed by a gamma-turn centered on Gly8, whereas for [beta-Ala8]NKA(4-10) is possible to suggest a type I beta-turn extending from Ser5 to beta-Ala8, followed by a C8 turn comprising beta-Ala8 and Leu9 and by another beta-turn extending from beta-Ala8 to the terminal NH2. The preferred conformation of [beta-Ala8]NKA(4-10) is not compatible with models for NK-1 and NK-3 agonists proposed on the basis of rigid peptide agonists [Levian-Teitelbaum et al. (1989) Biopolymers 28, 51-64; Sumner & Ferretti (1989) FEBS Lett. 253, 117-120]. The preferred solution conformation of [beta-Ala8]NKA(4-10) may thus be considered as a likely bioactive conformation for NK-2 selective peptides.     

A potent and selective agonist for NK-2 tachykinin receptor

Replacement of the glycine in position 8 of the C-terminal heptapeptide NKA(4-10) with beta-alanine give rise to a potent and selective agonist for the NK-2 tachykinin receptor. The affinity of [beta-Ala8]-NKA(4-10) to the NK-2 receptor is enhanced by almost one order of magnitude as compared to NKA(4-10), while affinity decreases at about the same extent at NK-1 and NK-3 receptors, respectively. Synthesis and biological activities of a series of NKA(4-10) analogues systematically replaced in each position with beta-alanine are also reported.     

Adrenomedullin inhibits neurotransmission of calcitonin gene-related peptide (CGRP)-containing vasodilator nerves in rat mesenteric resistance arteries.

We have reported that the rat mesenteric resistance artery has innervation of calcitonin gene-related peptide (CGRP)-containing vasodilator nerves (CGRPergic nerves). We also demonstrated that adrenomedullin (AM) causes mesenteric vasodilation through activation of CGRP receptors. The present study was designed to examine the effect of AM on neurotransmission of CGRPergic nerves in rat mesenteric arteries. In preconstricted preparations without endothelium, periarterial nerve stimulation (PNS, 1 and 2 Hz) induced a frequency-dependent vasodilation. A bolus injection of CGRP (10 pmol) into the perfusate also caused a vasodilation. AM (0.1 to 10 nM) concentration-dependently caused 40% to 60% inhibition of the PNS-induced vasodilation, but AM did not attenuate vasodilation induced by exogenous CGRP injection. The inhibitory effect of AM (10 nM) on PNS-induced vasodilation was further potentiated by CGRP [8-37] (CGRP receptor antagonist, 50 nM), which attenuated the vasodilator response to the CGRP injection. Combined perfusion of AM [22-52] (AM receptor antagonist, 10 to 100 nM) resulted in further inhibition of PNS-induced neurogenic vasodilation without affecting the vasodilator response to the CGRP injection. CGRP [8-37] but not AM [22-52] antagonized vasodilation induced by AM perfusion. These findings suggest that AM presynaptically inhibits neurotransmission of CGRPergic nerves, probably decreasing CGRP release, via receptors different from CGRP receptors.     

Isolation and Charactrization of Neurokinin a Receptor cDNAs from Guinea-Pig Lung and Rabbit Pulmonary Artery

Abstract

cDNA clones for NK-2 receptors (NK-2R) were isolated from guinea-pig lung (GP1) and rabbit pulmonary artery (Rpa) using a polymerase chain reaction based methodology. The GPI NK-2R consists of 402 amino acids and encodes a protein with a relative molecular mass of 45,097. The Rpa NK-2R consists of 384 amino acids and encodes a protein with a relative molecular mass of 43,169. The GPI and Rpa NK-2Rs share significant amino acid sequence homology amongst themselves (90.l%), as well as with human, bovine, hamster and rat NK-2 receptors.The two receptors were stably transfected into mouse erythroleukemia cells, high-speed membranes were prepared from induced cells and their pharmacological properties examined utilizing [₃H]-NKA in a receptor-binding assay. [³H]NKA bound to both NK-2Rs with high affinity (K_D = 2-7 nM) and saturable (B_max = 633 - 9000 fmol/mg protein) manner which was inhibited by GTP analogs. Competition experiments with agonists demonstrated identical order of potency in both NK-2Rs: NKA > [Nle^1O]NKA(4-l0) > [β-Ala⁸]NKA(4-10) ? Substance P ? Senktide. Similarly, an identical profile for both receptors was observed with selective NK-2 antagonists: SR48,968 > MEN10.376 ? R396. The rank order of antagonist affinity is consistent with that in cloned human NK-2R and the observations of NK-2 receptor pharmacology in native human, guinea pig and rabbit tissues.     

SR142801 behaves as a tachykinin NK-3 receptor agonist on a spinal nociceptive reflex in the rat

Effects of two commonly used tachykinin NK-3 receptor antagonists (SR 142801 and R820) intrathecally (i.t.) administered were assessed in the rat tail-flick test. SR142801 and its (R)-enantiomer SR142806 (1.3, 6.5 and 65 nmol) were found as potent as senktide and [MePhe7]NKB (NK-3 selective agonists) to induce transient antinociceptive effects. Naloxone (10 microg) and R820 (6.5 nmol) blocked reversibly the responses to 6.5 nmol senktide, [MePhe7]NKB, SR142801 and SR142806 when administered i.t. 15 min earlier. However, the antinociceptive responses induced by SR142801 and SR142806 were not affected by i.t. pretreatments with NK-1 (6.5 nmol SR140333) and NK-2 (6.5 nmol SR48968) receptor antagonists. In control experiments, the NK-1 and NK-2 antagonists prevented the hyperalgesic effects to NK-1 ([Sar9,Met(O2)11]SP) and NK-2 ([beta-Ala8] NKA(4-10)) receptor agonists (6.5 nmol i.t.), respectively. R820 had no direct effect on nociceptive threshold and failed to alter angiotensin II-induced antinociception. The data suggest that the antinociceptive effect of SR142801 is due to an agonist effect at NK-3 receptor in the rat spinal cord that involves a local opioid mechanism. These results can be best explained by the existence of inter-species NK-3 receptor subtypes.     

The actions of neurokinins and substance P in canine pylorus, antrum and duodenum

Analogues highly selective for receptors for substance P [beta-Ala4,Sar9,Met(02)11]-SP(4-11), for neurokinin A, [Nle10]-NKA(4-10), and for neurokinin B, [beta-Asp4,MePhe7]-NKB(4-10), were administered intraarterially before and after atropine or tetrodotoxin, to characterize the locations on nerve and muscle of the different receptor subtypes in the canine antrum, pylorus and duodenum. Circular muscle strips from each region were also studied in vitro. The NK-2 receptors in the antrum and the pylorus were located postsynaptically on smooth muscle. The NK-3 receptors, on the other hand, were located on neuronal sites in the antrum and duodenum. NK-1 receptors were located on neuronal and nonneuronal sites in the antrum, pylorus and duodenum. Only nonneural receptors could be activated in vitro.     

Involvement of the second extracellular loop (E2) of the neurokinin-1 receptor in the binding of substance P. Photoaffinity labeling and modeling studies

Substance P (SP) interacts with the neurokinin-1 (NK-1) G-protein-coupled receptor, which has been cloned in several species. In the present study, the domains of the NK-1 receptor involved in the binding of SP and SP-(7-11) C-terminal fragment have been analyzed using two peptide analogs containing the photoreactive amino acid para-benzoylphenylalanine ((p-Bz)Phe) in position 8 of their sequence. This study was carried out with [BAPA-Lys(6),(p-Bz)Phe(8),Pro(9),Met(O(2))(11)]SP-(7-11) and [BAPA(0),(p-Bz)Phe(8)]SP on both rat and human NK-1 receptors expressed in CHO cells. Combined trypsin and endo-GluC enzymatic complete digestions and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis led to the identification of the same domain of covalent interaction, (173)TMPSR(177), for the two photoactivatable peptides. Further digestion of this fragment with carboxypeptidase Y led to the identification of (173)TMP(175) in the second extracellular loop (E2) of the NK-1 receptor as the site of covalent attachment. Models of the conformation of this E2 loop in the human NK-1 receptor were generated using two different strategies, one based on homology with bovine rhodopsin and the other based on the solution conformation preferences of a synthetic peptide corresponding to the E2 loop.     

Heterogeneity of NK-2 tachykinin receptors in hamster and rabbit smooth muscles.

The possible existence of NK-2 receptor subtypes in peripheral smooth muscle preparations from rabbit and hamster was investigated by studying the effect of neurokinin A, the selective NK-2 receptor agonist [beta Ala8] neurokinin A (4-10), the selective NK-2 tachykinin receptor antagonists, MEN 10,376, L 659,877 and R 396, and the pseudopeptide derivative of neurokinin A (4-10), MDL 28,564. All experiments were performed in the presence of peptidase inhibitors (captopril, bestatin and thiorphan, 1 microM each). Both neurokinin A and [beta Ala8] neurokinin A (4-10) produced concentration-dependent contractions of the rabbit isolated bronchus and hamster isolated stomach and colon, as well as enhancement of the nerve-mediated twitches of rabbit isolated vas deferens (pars prostatica). MEN 10,376, L 659,877 and R 396 antagonized the effect of the NK-2 receptor selective agonist in all four tissues under study, although marked differences in antagonist potency were evident for the three antagonists. Thus MEN 10,376 was distinctly more potent (about 100 times) in rabbit than in hamster preparations while L 659,877 and R 396 were more potent in hamster than rabbit preparations. MDL 28,564 showed a distinct agonist character in rabbit preparations while it was virtually inactive in hamster preparations, where it antagonized the effect of the NK-2 receptor selective agonist.(ABSTRACT TRUNCATED AT 250 WORDS)     

Presence of Various Carbohydrate Moieties Including β-Galactose and N-Acetylglucosamine Residues on Solubilized Porcine Brain Neurokinin-1/Substance P Receptors

Neurokinin-1 (NK-1)/substance P (SP) receptors were solubilized using 10 mM 3-[( cholamidopropyl)-dimethylammonio]-1- propanesulfate from porcine striatal membranes (solubilization yield, 80%). In solubilized preparations, [3H]SP apparently bound to a single class of high-affinity sites (KD = 0.82 +/- 0.13 nM) as in membrane homogenates. The ligand selectivity pattern observed in both membrane and solubilized receptor preparations indicated that [Sar9,Met(O2)11]SP = SP much greater than senktide = [Nle10]neurokinin A. This suggests the selective labeling of the NK-1 receptor class in both assays. Solubilized receptors were retained on agarose-coupled lectins that bind N-acetylglucosamine-galactose and beta-galactose (Ricinus communis I and Ricinus communis II), mannose (concanavalin A and lentil), and N-acetylglucosamine (wheat germ agglutinin) but not on lectins binding fucose (Lotus A) and N-acetylgalactosamine (Doli-chos biflorus A). Thus, it appears that porcine brain NK-1/SP receptors are enriched with various carbohydrate moieties, beta-galactose and N-acetylglucosamine-galactose residues being especially abundant. This situation is rather different from that in various other members of the rhodopsin seven-transmembrane receptor superfamily.     

Synthesis and biological activity of analogues of the C-terminal hexapeptide of substance P with modifications at glutaminyl and methioninyl residues. Structure-activity studies.

Analogues of [Orn6]-SP6-11 have been synthesized in which the methionyl residue is replaced by glutamine gamma-carboxamide substituted derivatives. These analogues where tested in three in vitro preparations representative of NK-1, NK-2 and NK-3 receptor types. Substitution of the SCH3 group of the Met11 side chain by CONHCH3, CON(CH3)2, CONHPh and CONCH3Ph groups results in analogues which are full agonists in NK-1 and NK-2 preparations with the exception of the Glu[N(CH3)2]11 and the Glu(NHCH3)11 analogues, which are partial agonists at NK-1 and NK-2 receptors respectively. The Glu(NHCH3)11 analogue shows selectivity for the NK-1 receptor type and is equipotent to the Glu(NCH3Ph)11 analogue in the same receptor type. The latter analogue is 2.84 times more potent than the parent hexapeptide in the NK-2 preparation. The Glu(NHPh)11 analogue is a full agonist in the NK-3 preparation and equipotent to the parent hexapeptide, in contrast to the other analogues in which Met has been replaced by glutamine gamma-carboxamide substituted residues. It is concluded that for NK-1 receptor type the lipophilic character of Met11 side chain is not a determining factor for activity but it is an important factor for activity in the NK-2 receptor type and has a stronger effect when a phenyl group is present, thus leading to analogues which are full agonists and more potent than the parent hexapeptide.     

PHI preferentially binds to VIP receptors in normal rat tissues

Vasoactive intestinal peptide (VIP) and peptide histidine isoleucine (PHI) are homologous neuropeptides with parallel biological actions. These similarities raise the question whether VIP and PHI have common or distinct mechanisms of action, including receptors. The present study attempted to distinguish specific binding sites for VIP and PHI in normal rat tissues using the homologous radioligands [Tyr(125I)10]VIP and [Tyr(125I)10]rat PHI. In rat brain, anterior pituitary, and liver membranes both radioligands identified a VIP-preferring receptor. Rat PHI had less than 10% the binding potency of VIP in these tissues irrespective of which radioligand was used. In rat uterine membranes [Tyr(125I)10]VIP bound to a receptor with approximately 100 times greater affinity for VIP over PHI. No specific binding of [Tyr(125I)10]rat PHI to rat uterus could be demonstrated. In conclusion, these results support the predominance of VIP-preferring receptors as opposed to PHI-preferring receptors in normal rat brain, anterior pituitary, liver and uterus.     

Neurokinin 1 receptors mediate substance P-induced changes in ion transport in guinea-pig ileum.

Tachykinin receptors mediating substance P-induced secretion were examined in muscle-stripped segments of guinea-pig ileum set up in flux chambers. Changes in the short-circuit current (Isc) served as an index of active, electrogenic ion transport. Substance P evoked a transient increase in Isc which was concentration-dependent. The maximal change in Isc occurred at 1 microM concentration. [Sar9,Met(O2)11]-substance P, a neurokinin 1 (NK-1) receptor agonist, evoked a similar concentration-dependent increase in Isc. [Nle10]NKA(4-10) (1 microM) or [Pro7]NKB (1 microM), selective NK2 and NK3 agonists, respectively, had minimal effects on Isc. CP-96,345 (5 microM), a nonpeptide NK-1 antagonist, and the peptide NK-1 antagonist, GR82334 (1 microM), reduced the secretory response to substance P (50 nM) in the presence and absence of tetrodotoxin (0.2 microM). The NK2 antagonist, [Tyr5,D-Trp6,8,9,Arg10]NKA(4-10) MEN 10207 had no effect on the substance P response. Tetrodotoxin (0.2 microM) significantly reduced, but did not abolish the Isc response to substance P (1 microM) and [Sar9,Met(O2)11]substance P (1 microM). The substance P response was unaltered by 5 microM atropine and 50 microM mecamylamine. Piroxicam (10 microM) or pyrilamine (10 microM) or a combination of both had no effect on the tetrodotoxin-resistant substance P response. Electrical field stimulation evoked a biphasic increase in Isc which was significantly reduced by 0.2 microM tetrodotoxin. Atropine (5 microM) reduced the first peak of the biphasic response and mecamylamine (50 microM) had no effect. Similarly, 5 microM CP-96,345 and 1 microM GR82334 did not alter the EFS-induced change Isc. The results suggest that substance P-evoked secretory responses are independent of histamine or prostaglandins. Substance P responses are mediated by an NK-1 receptor type on enteric neurons and possibly epithelial cells.     

Endomorphins interact with the substance P (SP) aminoterminal SP(1-7) binding in the ventral tegmental area of the rat brain

We have recently identified a specific binding site for the tachykinin peptide substance P (SP) fragment SP(1-7) in the rat spinal cord. This site appeared very specific for SP(1-7) as the binding affinity of this compound highly exceeded those of other SP fragments. We also observed that endomorphin-2 (EM-2) exhibited high potency in displacing SP(1-7) from this site. In the present work using a [(3)H]-labeled derivative of the heptapeptide we have identified and characterized [(3)H]-SP(1-7) binding in the rat ventral tegmental area (VTA). Similarly to the [(3)H]-SP(1-7) binding in the spinal cord the affinity of unlabeled SP(1-7) to the specific site in VTA was significantly higher than those of other SP fragments. Further, the tachykinin receptor NK-1, NK-2 and NK-3 ligands showed no or negligible binding to the identified site. However, the mu-opioid peptide (MOP) receptor agonists DAMGO, EM-1 and EM-2 did, and significant difference was observed in the binding affinity between the two endomorphins. As recorded from displacement curves the affinity of EM-2 for the SP(1-7) site was 4-5 times weaker than that for SP(1-7) but about 5 times higher than that of EM-1. The opioid receptor antagonists naloxone and naloxonazine showed weak or negligible binding. It was concluded that the specific site identified for SP(1-7) binding in the rat VTA is distinct from the MOP receptor although it exhibits high affinity for EM-2.     

Possible existence of a new tachykinin receptor subtype in the guinea pig ileum.

The guinea pig ileum possesses NK-1 and NK-3 tachykinin receptors. As expected, [Pro9]SP and senktide, which are selective agonists of NK-1 and NK-3 receptors, respectively, were found to be highly potent in contracting the guinea pig ileum. Surprisingly, similar observations were made with septide, SP-O-CH3, [Apa9-10]SP, or [Pro9,10]SP although, in contrast to [Pro9]SP, these four peptides showed a low affinity for 3H-[Pro9]SP-specific NK-1 binding sites on membranes from the guinea pig ileum. They were also devoid of affinity for NK-2 and NK-3 binding sites. GR 71251, a compound which has been described as a NK-1 antagonist, was more potent in inhibiting the septide- than the [Pro9]SP-evoked contracting response. Altogether, these results suggest that septide, [Apa9-10]SP, and [Pro9,10]SP exert their high contracting activity in the guinea pig ileum by acting on a new subtype of tachykinin receptors.     

Synthesis of a potent agonist of substance P by modifying the methionyl and glutaminyl residues of the C-terminal hexapeptide of substance P. Structure-activity relationships.

Analogues of [Orn6]-SP6-11 have been synthesized in which the Met11 residue is replaced by glutamate gamma-alkylesters. These analogues were tested in three in vitro preparations representative of NK-1, NK-2, and NK-3 receptor types. Substitution of the SCH3 group of the Met11 side chain by a COOR (R = methyl, ethyl, n-propyl, n-butyl, cyclohexyl) group results in analogues which are full agonists in NK-1 and NK-2 preparations but show little agonist activity in the NK-3 preparation. When the SCH3 group is replaced by a t-butyl ester group and the resulting analogue is a full agonist in all the above preparations and more active than the parent hexapeptide and SP-OCH3 at NK-1 receptors. It is concluded that for activity at NK-1 receptors methionine can be replaced by gamma-t-butyl glutamate without loss of activity, whilst at NK-2 and NK-3 receptors the above substitution increases the activity of [Orn6]-SP6-11. Other gamma-alkyl esters of the glutamic acid reduce its biological activity.     

In vitro pharmacological profile of peptide III-BTD: a novel ligand for nociceptin/orphanin FQ and opioid receptors

Peptide III-BTD has been recently identified as a non-selective nociceptin/orphanin FQ receptor ligand by screening of a synthetic peptide combinatorial library. In the present study we evaluated the pharmacological profile of peptide III-BTD in isolated tissues (mouse and rat vas deferens, guinea pig ileum) sensitive to both nociceptin and opioid peptides. In the mouse vas deferens and guinea pig ileum, III-BTD concentration dependently inhibited the electrically induced twitch (pEC50 5.91 and 6.18, respectively; Emax 94 +/- 1% and 94 +/- 2%) and this effect was blocked by naloxone (1 microM). In the rat vas deferens, III-BTD was inactive in most of the tissues, while in few others it elicited a slight inhibition only at the highest concentration tested (10 microM). In the presence of 1 microM naloxone, 1 microM III-BTD shifted to the right the concentration response curve of nociceptin in a parallel manner, showing pKB values in the range 6.6-6.9. These data confirm on native nociceptin receptors the pharmacological profile of peptide III-BTD which behaved as a mixed nociceptin receptor antagonist/opioid receptor agonist in the [35S]GTPyS binding assay performed on cells expressing the recombinant human receptors.     

[3H]LY303870, a Novel Nonpeptide Radioligand for the NK-1 Receptor

Abstract: We synthesized a potent and selective antagonist radioligand for the neurokinin (NK)-1 receptor and characterized its binding to guinea pig striatal membranes. ( R ) - N - [2 - [Acetyl[³H₃][(2 - methoxyphenyl) - methyl]amino] - 1 - (1 H - indol - 3 - ylmethyl)ethyl][1,4' - bipiperidine]-1'-acetamide ([³H]LY303870) binds to a single class of sites with an equilibrium K _D of 0.22 n M and a B _max of 723 fmol/mg of protein. Unlabeled LY303870 potently inhibited the binding with an IC₅₀ of 0.56 n M , whereas the less active ( S )-enantiomer (LY306155) was substantially less potent. The nonpeptide NK-1 antagonists (±)-CP96,345 and (±)-RP 67580 had IC₅₀ values of 0.74 and 49 n M , respectively. Substance P (SP) was also a potent inhibitor with with an IC₅₀ of 3.1 n M . The inhibition by SP could be separated into two components: a high-affinity component with a K _i of 0.53 n M and a lower-affinity component with a K _i of 155 n M . Addition of 100 µ M guanylyl 5'-imidodiphosphate [Gpp(NH)p] in the incubation increased the relative amount of the low-affinity agonist state of the receptor. Consistent with the antagonist properties of LY303870, the dissociation rate of [³H]LY303870 was not changed by the presence of 100 µ M Gpp(NH)p. The distribution of [³H]LY303870 binding sites in the guinea pig brain closely matched the distribution of NK-1 receptors labeled by [³H]SP. Therefore, [³H]LY303870 is a potent and selective antagonist radioligand for NK-1 receptors in guinea pig brain. In addition, regulation of NK-1 agonist affinity by guanine nucleotides is similar to that seen for monoaminergic receptors.