Kainate receptors are involved in the glutamate-induced indirect,purinergic inhibition of [3H]-noradrenaline release in rabbit brain cortex

Activation of ionotropic but not of metabotropic glutamate receptors causes an indirect inhibition of the release of noradrenaline in slices of rabbit brain cortex. The inhibition is mediated by adenosine which activates presynaptic adenosine A₁-receptors. The present study characterizes the ionotropic receptor types through which glutamate itself produces this indirect inhibition. Rabbit brain cortex slices were preincubated with [³H]-noradrenaline, superfused with medium containing desipramine (1 M) and stimulated electrically by trains of 6 pulses at 100 Hz.Glutamate (100–3000 M) reduced the electrically evoked overflow of tritium by up to 58 %. The effect did not differ 20 min and 60 min after addition of glutamate. Adenosine deaminase (1 U ml^-1) as well as 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX; 30 M) and d--glutamylamino-methanesulfonate (GAMS; 30 M), both of which block kainate receptors, attenuated the glutamate-induced inhibition. The NMDA receptor antagonist 2-amino-5-phosphonopentanoate (AP5; 100 M) and the AMPA receptor antagonist 6-nitro-7-sulfamoylbenzo(f)quinoxaline-2,3-dione (NBQX; 30 M) did not change the effect of glutamate. Given alone, CNQX and GAMS, but not AP5 and NBQX, slightly increased the evoked overflow of tritium; the increases were abolished in the presence of adenosine deaminase.The results indicate that activation of kainate but not NMDA and AMPA receptors is involved in the indirect, adenosine-mediated inhibition by exogenous glutamate of the release of noradrenaline in rabbit brain cortex slices. Moreover, as shown by the increase caused by CNQX and GAMS, endogenous excitatory amino acids inhibit the release of noradrenaline through the kainate receptor-adenosine mechanism and thus contribute to the purinergic inhibitory control of noradrenaline release in the brain.     

Generalization tests with intraventricularly applied pro-enkephalin B-derived peptides in rats trained to discriminate the opioid kappa receptor agonist ethylketocyclazocine

Rats were trained in a two-lever food-reinforced procedure to discriminate between the effects of saline and the opioid kappa receptor agonist ethylketocyclazocine. After acquisition of this discrimination, generalization tests with opioid peptides such as -endorphin, -neoendorphin, dynorphin A and some dynorphin-derived peptides were conducted. The rats dose-dependently generalized the effects of intracerebroventricularly injected ethylketocyclazocine but not -endorphin, -neoendorphin, dynorphin A_1–8, dynorphin A_1–13, D-Cys²-L-Cys⁵-dynorphin A_1–13 or dynorphin A. D-Cys²-L-Cys⁵-dynorphin A_1–13, in contrast to dynorphin A itself, dose-dependently caused analgesia and catatonia that was reversible with naloxone. Studies into the receptor preference of this derivative, using the technique of selective tolerance, revealed that this dynorphin derivative is almost devoid of kappa-receptor activity.     

Bedeutung der N- und α-Methylierung für die Affinität von Brenzcatechinaminen zu den adrenergischen Receptoren

Summary 1. N-methylation of dopamine yielding epinine means potentiation of the -adrenergic pressor action in the cat. It is only N-methylation which renders dopamine to a direct acting -sympathomimetic amine: the positive inotropic effect of epinine on the isolated electrically driven guinea pig auricle remained uninfluenced by pretreatment of the animals with reserpine, whereas the dose-response curve of dopamine was shifted to the right.The blood pressure lowering effect of epinine after phenoxybenzamine was—in contrast to that of dopamine—abolished by pronethalol.—N-methylation of noradrenaline doubled the affinity for the -receptors of the heart.2. Also by -methylation dopamine gains affinity to the adrenergic -receptors (heart and vessels): d--methyldopamine, an exclusively directly acting catecholamine, had a 40 times stronger inotropic action than dopamine on reserpinized auricles; the action of l--methyldopamine, a mainly indirectly acting amine, was only 4 times stronger than dopamine.-methylnoradrenaline, although having the same inotropic activity as noradrenaline, had a 10 times stronger depressor action than noradrenaline in the cat pretreated with phenoxybenzamine.By -methylation, the -adrenergic pressor effect of dopamine as well as that of noradrenaline was enhanced only in the range of lower doses since the dose-response curves of the -methylated compounds were generally less steep than those of the non-methylated catecholamines, indicating a lower intrinsic activity of the -methylated derivatives.3. The N- and -methylated catecholamines -methylepinine and -methyladrenaline resp. were blood pressure lowering agents per se, because both methylgroups additively enhanced the affinity to the vascular -receptors. -methylepinine was the most potent -sympathomimetic on the heart in the dopamine series (dopamine < d--methyldopamine epinine < dl--methylepinine). However, in the noradrenaline series the twofold methylated compound -methyladrenaline had the lowest positive inotropic action (d(–)-adrenaline > d(–)-noradrenaline (–)erythro--methylnoradrenaline > (–) erythro--methyladrenaline).4. From the results the following conclusions are drawn: The N- as well as the -methyl-group exerts and +I-effect on the ammonium group. Thereby, protonation will be increased which leads to an enhanced affinity of the resp. catecholamine to the adrenergic - and -receptor. Since the -CH₃ group—dependant upon its steric configuration—also causes a steric hindrance at the receptor site, the increase in affinity due to the +I-effect is partially neutralized. By that the lower intrinsic affinity of the -methylated compounds as indicated by the different slope of their pressor dose-response curves, is also readily explained. Furtheron it is intelligible why -methylation enhanced the -adrenergic activity in the less potent dopamine series (preponderance of the +I-effect), whereas it lowered the affinity to the cardiac -receptors in the noradrenaline series (preponderance of the steric hindrance).5. Although -methyladrenaline was the least potent -sympathomimetic of the noradrenaline series in the guinea pig heart, it was the most potent compound in lowering the cat's blood pressure. Therefore, it seems to be questionable whether the cardiac and the vascular -receptors and/or the mechanisms by which they induce the pharmacodynamic actions are identical.

Über einen Teil der Ergebnisse wurde auf der 7. Frühjahrstagung der Deutschen Pharmakologischen Gesellschaft in Mainz, 24.–27. April 1966, berichtet (Palm, Langeneckert u. Holtz, 1966).     

Kinin-induced relaxations of the rat duodenum

Summary Both bradykinin (BK) and des-Arg⁹-BK induced relaxations of the isolated longitudinal smooth muscles of the rat duodenum. No contractile effects were observed with both peptides at concentrations up to 1 mol/l. Des-Arg⁹-BK was about 1000 times less potent than BK. The novel B₂ antagonist HOE 140 (d-Arg-[Hyp³, Thi⁵, D-Phe⁷, Oic⁸]-BK) potently inhibited the BK-induced relaxations, but did not affect the relaxations induced by des-Arg⁹-BK. Conversely, the B₁ receptor antagonist des-Arg⁹-[Leu⁸]-BK only inhibited des-Arg⁹-BK, but did not affect BK-induced relaxations.The relaxations induced by BK and by des-Arg⁹-BK were inhibited by apamin (1 mol/l) demonstrating that apamin-sensitive K⁺ channels are involved. In contrast, tetraethylammonium (1 mmol/l) did not inhibit the relaxations. BK-induced relaxations were reduced by about 25% in the presence of indomethacin (10 mol/l) although the concentration-response curve to BK was not shifted to the left. Prostaglandin E₁ caused relaxations with a pD₂ value of 9.2.It is concluded that both BK and des-Arg⁹-BK can elicit relaxations of the rat duodenum via pharmacologically distinct kinin receptor subtypes, but via similar effector mechanisms.     

X-Ray Structure and Crystal Lattice Interactions of the Taxol Side-Chain Methyl Ester

A colorless, parallelepiped crystal of methyl (2R,3S)-N-benzoyl-3-phenylisoserinate belonging to the space group P2_l with a = 5.414(4), b = 7.813(1), c = 17.802(7) , = 90.87(4)°, Z = 2, V = 752.9 ³, D _calc = 1.32 g cm^–3, and µ_calc = 1.02 cm^–1 was selected and the structure solved using direct methods. Refinement led to a final R = 0.079 for 819 [F _o 5(F_o)] reflections. Intermolecular hydrogen-bonding interactions are prevalent in the crystal lattice of this compound.     

Differential effects of SKF 10,047 (N-allyl-normetazocine) on peristalsis and longitudinal muscle contractions of the isolated guinea-pig ileum

Summary The purpose of this study was to investigate the differential involvement of distinct types of opioid receptors in the modulation of intestinal peristalsis compared to electrically induced longitudinal muscle contractions.Like naloxone, the proposed -agonist and -antagonist SKF 10,047 (N-allyl-normetazocine) dose-dependently enhanced peristaltic circular muscle contractions in the isolated guinea-pig ileum. Pre-application of SKF 10,047 at a concentration which itself enhanced peristalsis by 20% on average strongly attenuated the inhibition of peristalsis produced by opioids previously proposed to act via -opioid-receptors in the guinea-pig ileum, i.e. normorphine, -endorphin, d-Ala²-d-Leu⁵-enkephalin and d-Ser²-l-Leu⁵-enkephalyl-Thr, but less strongly attenuated the inhibition produced by compounds suggested to act via -opioid-receptors in this tissue, i.e. ethylketazocine and dynorphin (1–13). In contrast to its effect on peristalsis, SKF 10,047 inhibited the electrically induced contractions of the myenteric plexus-longitudinal muscle preparation in a naloxonereversible fashion.It may be concluded that - and -opioid receptors are of a greater functional significance than -receptors in the control of peristalsis. -Receptors might participate predominantly in modulating the release of acetylcholine which underlies the electrically induced longitudinal muscle contraction.     

Studies on the chemical constituents from the roots of <Emphasis Type="Italic">Platycodon grandiflorum</Emphasis>

Three known monodesmosidic saponins: 3-O--d-glucopyranosyl-2,3,16,23,24-pentahydroxyolean-12-ene-28-oic acid, 3-O--d-glucopyranosyl polygalacic acid, and 3-O--d-glucopyranosyl-(13)--d-glucopyranosyl polygalacic acid; and two known nonsaponin compounds: a mixed compound of n-tetracosanoic acid (lignoceric acid), n-hexacosanoic acid (cerotic acid), and n-octacosanoic acid, and -monopalmitin; were isolated for the first time from the root of Platycodon grandiflorum A. DC. together with another seven known compounds: platycoside G₁ (3-O--d-glucopyranosyl-(16)--d-glucopyranosyl-(16)--d-glucopyranosyl-2,3,16,23,24-pentahydroxyolean-12-ene-28-oic acid 28-O--d-xylopyranosyl-(14)--l-rhamnopyranosyl-(12)--l-arabinopyranoside), deapio-platycodin D, Polygalacin D, deapio-platycodin D₃, platycoside A, -spinasterol, and -spinasteryl-3-O--d-glucopyranoside. Alkaline hydrolysis of platycoside G₁ afforded a new monodesmosidic prosaponin: 3-O--d-glucopyranosyl-(16)--d-glucopyranosyl-(16)--d-glucopyranosyl-2,3,16,23,24-pentahydroxyolean-12-ene-28-oic acid. Their chemical structures were elucidated on the basis of their spectral data and chemical evidence.     

Different types of opioid receptors mediating analgesia induced by morphine,DAMGO, DPDPE,DADLE and β-endorphin in mice

Summary The effects of intracerebroventricular (i.c.v.) administration of d-Phe-Cys-Tyr-d-Try-Orn-Thr-Pen-Thr-NH₂ (CTOP), a selective mu-opioid receptor antagonist, (Allyl)2-Tyr-Aib-Aib-Phe-Leu-OH (ICI 174864) and (N,N-Bisallyl-Tyr-Gly-Gly--(CH₂S)-Phe-Leu-OH (ICI 154129), selective delta-opioid receptor antagonists on blocking analgesia induced by -endorphin, morphine, d-Ala²-NMePhe⁴-Gly-ol-enkephalin (DAMGO), d-Ala²-d-Leu⁵-enkephalin (DADLE) and d-Pen²-enkephalin (DPDPE) administered i.c.v. were studied in male ICR mice. The analgesia was assessed by the tail-flick and paw-licking (hot-plate) tests. The potencies of opioid agonists injected i.c.v. for producing analgesia were DAMGO > DADLE > -endorphin > morphine > DPDPE. Intracerebroventricular administration of CTOP (0.05 g) selectively antagonized inhibition of the tail-flick and paw-licking response induced by morphine, DAMGO or DADLE but not -endorphin or DPDPE. ICI 174864 (5 g) and ICI 154129 (5 g) injected i.c.v. selectively antagonized analgesia induced by DPDPE or DADLE but not -endorphin, morphine or DAMGO injected i.c.v. These results indicate that analgesia induced by morphine and DAMGO is mediated by the stimulation of mu-opioid receptors while analgesia induced by DPDPE is mediated by the stimulation of delta-opioid receptors. DADLE-induced analgesia is mediated by the stimulation of both mu- and delta-opioid receptors. Analgesia induced by -endorphin is mediated by neither munor delta-opioid receptors.Abbreviations i.c.v. intracerebroventricular - i.t. intrathecal - CTOP d-Phe-Cys-Tyr-d-Try-Orn-Thr-Pen-Thr-NHZ - DAMGO d-Ala²-NMePhe²-Gly-ol-enkephalin - DADLE d-Ala²-d-Leus-enke-phalin - DPDPE dd-Pen²-dd-Pen⁵-enkephalin - ICI 174864 (Allyl)2Tyr-Aib-Aib-Phe-Leu-OH - ICI 154129 (N,N-Bisallyl-Tyr-Gly-Gly-(CH₂S)-Phe-Leu-OH     

The selective P2X purinoceptor agonist, β,γ-methylene-L-adenosine 5′-triphosphate,discriminates between smooth muscle and neuronal P2X purinoceptors

The effects of the putative selective P_2X purinoceptor agonist, ,-methylene-l-adenosine 5-triphosphate (me-l-ATP), were determined at rat neuronal and smooth muscle P_2X purinoceptors.Me-l-ATP had no effect on the extracellularly recorded membrane potential of the rat isolated vagus nerve preparation at concentrations up to 300 M. In contrast, the archetypal P_2X purinoceptor agonist, , methylene ATP (meATP;1–100 M), produced concentration-related depolarisation responses with a mean EC₅₀ value of 10.8 M. The depolarising effects of meATP were not attenuated by me-l-ATP (100 M). In voltage clamp experiments on single nodose ganglion neurones, ATP (100 M), but not me-l.-ATP (1–300 M), evoked rapid ( < 20 ms onset) inward currents when applied using a concentration-clamp method. In receptor binding studies to rat brain membranes, me-d-ATP and meATP competed with high affinity for [³H]Lx meATP binding sites, with mean pIC₅₀ values of 7.7 and 8.3, respectively. However, me-l-ATP possessed low affinity for these sites and competed only at concentrations in excess of 10 M (mean pIC₅₀ value 4.1).In prostatic segments of the rat vas deferens, me-l-ATP (1–100 M) and meATP (0.3–100 M) each produced concentration-related contractile responses with mean EC₅₀ values of 17.1 and 3.6 M, respectively. Me-l-ATP (1–10 M) evoked fast inward currents in freshly dispersed vas deferens smooth muscle cells, indicative of an action at ligand-gated ion channels. Binding sites in vas deferens membranes labelled using 1 nM [³H]meATP exhibited high affinity for me-l-ATP, meATP and me-d-ATP with mean PIC₅₀ values of 7.7, 8.4 and 7.3, respectively.These results indicate that me-l-ATP exhibits neither agonist nor antagonist properties at P_2X purinoceptors on rat vagal neurones and possesses only very low affinity for [³H]meATP binding sites in rat brain. In contrast, me-l-ATP is a potent, high affinity agonist at smooth muscle P_2X purinoceptors of the rat vas deferens. This selective agonist action of me-l-ATP suggests that P_2X purinoceptors in smooth muscle and neurones are different and represent distinct P_2X purinoceptor subtypes.     

Opioid activities of human β-casomorphins

Summary Opioid activities of human -casomorphin-4,-5,-7 and -8 and, for comparison, of the corresponding bovine -casomorphins were studied in the guinea-pig ileum preparation. Binding parameters, i.e. K _d -values and binding site concentrations, for the interaction of human and bovine -casomorphins with opioid receptors in rat brain homogenates were determined in inhibition experiments, using [³H]-(d-Ala², MePhe⁴, Gly-ol⁵)enkephalin, [³H]-(d-Ala², d-Leu⁵)enkephalin and [³H]ethylketazocin as -, - and -opioid receptor ligands. Analysis of binding data was performed using a non-linear curve fitting program. All -casomorphins examined displayed opioid activity. The affinity was highest for -receptors, less so for -receptors and lowest for -receptors. It is suggested that human -casomorphins might play a role as food hormones.     

Down-regulation of 3H-lofentanil binding to opiate receptors in different cultured neuronal cells

Summary There was stereospecific binding of ³H-lofentanil (K _D value = 1.53 nM) to membranes of neuroblastoma-glioma NG 108-15 cells which are known to bear high affinity binding sites for enkephalin derivatives (-opiate receptor subtype). There was no high affinity specific binding of the -opiate specific ligand ³H-sufentanil. The specific binding of ³H-lofentanil to -opiate receptor subtype was down-regulated (decrease in B _max value without change in the K _D value) after prolonged incubation of the cells in the presence of leu- and met- enkephalin (0.1 M). There was no down-regulation of the opiate receptors (³H-lofentanil and ³H-d-ala-d-leu-enkephalin specific binding) after incubation of NG 108-15 cells with drugs from the fentanyl series (alfentanil or sufentanil).In cultured neurones from rat forebrain (15 day old embryos), the ³H-lofentanil binding was specific with high affinity (K _D: 0.048 nM) and a slow dissociation rate similar to that in adult rat cortex. Drugs of the fentanyl series (4-anilino-piperidines) were potent displacers whereas agonists of the - (enkephalin derivatives), (phencyclidine, haloperidol, 3-hydroxyphenyl-propylpiperidine) or K- (U 50488) opiate sites had a low affinity (K _i > 0.5 M) for ³H-lofentanil specific binding sites. Since there was also specific binding of ³H-sufentanil, the opiate receptors in cultured neurones seem to be mainly of the -subtype and this is consistent with the ontogeny of opiate receptors subtypes. These receptors were down-regulated after incubation in the presence of etorphine, sufentanil and alfentanil but not enkephalin derivatives.These results strongly suggest specific binding of ³H-sufentanil and ³H-lofentanil mainly to the so-called -opiate receptors in cultured neurones and a specific binding of ³H-lofentanil to lower affinity -opiate receptors in neuroblastoma-glioma cells. The down-regulation of the -opiate binding sites in cultured neurones and that of the -site in neuroblastoma × glioma hybrid cells were dose-and temperature-dependent, induced by the corresponding high affinity agonists and prevented by naloxone. Morphine did not induce down-regulation of or receptor sites, possibly because of a partial antagonist effect on both receptor subtypes. Send offprint requests to J. M. Maloteaux at the above address     

5-Hydroxytryptamine-induced contractions of the human isolated saphenous vein: involvement of 5-HT2 and 5-HT1D-like receptors,and a comparison with grafted veins

Summary The receptors mediating the contractile effect of 5-hydroxytryptamine (5-HT) on the human isolated saphenous vein, obtained from 42 patients undergoing coronary bypass surgery, have been further characterized using a number of 5-HT-related drugs. The rank order of agonist potency was 5-carboxamidotryptamine (5-CT) 5-HT > methysergide sumatriptan -methyl-5-HT 5-methoxy-3-(1,2,3,6-tetrahydropyridin-4-yl)-1-Hindolesuccinate (RU 24969) 1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane hydrochloride (DOI) > 2-methyl-5-HT > 8-hydroxy-2(di-n-propylamino)tetralin (8-OH-DPAT). Flesinoxan was inactive as an agonist. Ketanserin (1 mol/l) hardly affected sumatriptan-induced contractions but it caused a rightward shift of the upper part of the concentration-response curve of 5-HT and 5-CT. The same concentration of ketanserin caused a parallel rightward shift of the concentration-response curves of -methyl-5-HT and DOI with pK_B values of 7. 1 and 7.1, respectively. The responses to sumatriptan were antagonized by methiothepin (0.1 mol/l), metergoline (0.1 and 1 mol/l), rauwolscine (1 mol/l) and cyanopindolol (1 mol/l); the calculated pK_B values were 7.3, 6.9, 7.3, 6.7 and 6.5, respectively. Contractions to 5-HT were antagonized by methysergide (1 mol/l), methiothepin (0.1 mol/l; pKB = 7.1), ICS 205-930 (1 mol/l; pK_B = 5.9) and flesinoxan (30 mol/l; pK_B = 5.3). Remarkably, the contractions elicited by 2-methyl-5-HT were not attenuated by ICS 205-930, but were antagonized by methiothepin (0.1 mol/l) and, more markedly, by ketanserin (1 mol/l).There was a high correlation between the functional pD₂ values of 5-HT₁-like receptor agonists (5-CT, 5-HT, methysergide, sumatriptan, RU 24969 and 8-OH-DPAT) and their reported binding affinities for the 5-HT_1D receptor in human or calf brain membranes. Such a correlation for the antagonism of sumatriptan-induced responses was less marked than for the agonists, but of the 5-HT₁-like receptor subtypes it was the highest for the 5-HT_1D receptor identified in human or calf brain membranes.In 3 patients, undergoing heart transplantation, saphenous vein which had previously functioned as a graft for 6–11 years, was dissected out from the heart. Though the contractions to potassium were significantly smaller in the grafted veins, the pD₂ and E_max values (calculated as percentage of potassium-induced contractions) for 5-HT and sumatriptan were similar to those found in the veins obtained directly from the lower leg.It is concluded that contractions in the human isolated saphenous vein induced by 5-HT are mediated by 5-HT₂ receptors as well as by a 5-HT₁-like receptor resembling the 5-HT_1D subtype found in brain membranes. It is also to be noted that 2-methyl-5-HT, considered selective for the 5-HT₃ receptor, contracts the saphenous vein mainly via 5-HT₂ receptors.This study was supported by the Netherlands Heart Foundation, grant 89.252 Send offprint requests to W. A. Bax at the above address     

Influence of polymorphism on the surface energetics of salmeterol xinafoate crystallized from supercritical fluids

Purpose. To characterize the surface thermodynamic properties of two polymorphic forms (I and II) of salmeterol xinafoate (SX) prepared from supercritical fluids and a commercial micronized SX (form I) sample (MSX). Methods. Inverse gas chromatographic analysis was conducted on the SX samples at 30, 40, 50, and 60°C using the following probes at infinite dilution: nonpolar probes (NPs; alkane C5-C9 series); and polar probes (PPs; i.e., dichloromethane, chloroform, acetone, ethyl acetate, diethyl ether, and tetrahydrofuran). Surface thermodynamic parameters of adsorption and Hansen solubility parameters were calculated from the retention times of the probes. Results. The free energies of adsorption (-G_A) of the three samples obtained at various temperatures follow this order: SX-II > MSX SX-I for the NPs; and SX-II > MSX > SX-I for the PPs. For both NPs and PPs, SX-II exhibits a less negative enthalpy of adsorption (H_A) and a much less negative entropy of adsorption (S_A) than MSX and SX-I, suggesting that the high -G_A of SX-II is contributed by a considerably reduced entropy loss. The dispersive component of surface free energy (_s ^D) is the highest for MSX but the lowest for SX-II at all temperatures studied, whereas the specific component of surface free energy of adsorption (-G_A ^SP) is higher for SX-II than for SX-I. That SX-II displays the highest -G_A for the NP but the lowest _s ^D of all the SX samples may be explained by the additional -G_A change associated with an increased mobility of the probe molecules on the less stable and more disordered SX-II surface. The acid and base parameters, K_A and K_D, that were derived from H_A ^SP reveal significant differences in the relative acid and base properties among the samples. The calculated Hansen solubility parameters (_D, _P, and _H) indicate that the surface of SX-II is the most polar and most energetic of all the three samples in terms of specific interactions (mostly hydrogen bonding). Conclusions. The metastable SX-II polymorph possesses a higher surface free energy, higher surface entropy, and a more polar surface than the stable SX-I polymorph.     

Activation of presynaptic α2-adrenoceptors attenuates the inhibitory effect of μ-opioid receptor agonists on noradrenaline release from brain slices

Summary ³H-noradrenaline release from rat neocortical slices induced by 15 mM K⁺ was concentration-dependently inhibited by morphine, [D-Ala²-D-Leu⁵] enkephalin (DADLE) and the calcium entry blocker Cd²⁺. Blockade of presynaptic ₂-adrenoceptors with phentolamine, almost doubling K⁺-induced ³H-noradrenaline release, slightly enhanced the relative inhibitory effects of morphine and DADLE, whereas that of Cd²⁺ remained unaffected. In contrast, activation of presynaptic ₂-adrenoceptors with clonidine (1 M) or TL-99 (1 M), inhibiting release by about 50%, completely abolished the inhibitory effects of morphine and DADLE without affecting that of Cd²⁺. When in the presence of 1 M clonidine adenylate cyclase was activated with forskolin (10 M), which restored release to the drug-free control level, the opioids still did not display their inhibitory effects. Therefore, -opioid receptor efficacy appears to be dependent on the degree of activation of ₂-adrenoceptors in central noradrenergic nerve terminals, probably through a local receptor interaction within the nerve terminal membrane.     

Enhancement of δ- but not μ-opiate agonist binding by calcium

Summary Present evidence for distinction of 2 types of opiate receptor sites in rat brain homogenates originates from different relative affinities of morphine-like alkaloids and enkephalins to -or enkephalin and - or morphine-receptor sites. We now report that Ca²⁺ in a physiological dose range (0.5–3 mM) enhances the binding of ³H-enkephalin in hypotonically treated rat brain membranes, whereas specific binding of ³H-morphine-like alkaloids is not affected. Furthermore, the potency of [d-Ala², d-Leu⁵]-enkephalin to inhibit [³H]-diprenorphine and [³H]-ethylketazocine binding increased in the presence of Ca²⁺, whereas an increase in potency of [d-Ala², d-Leu⁵]-enkephalin to inhibit binding of -receptor ligands was not observed. Kinetic analysis revealed that Ca²⁺ decreased the rate of dissociation of [d-Ala², d-Leu⁵]-enkephalin without affecting the rate of association, thereby increasing the affinity. However, in saturation binding studies, performed in diencephalic membranes, in which [d-Ala², d-Leu⁵]-enkephalin binds predominantly to -receptors, Ca²⁺ also increased the binding affinity of [³H]-[d-Ala², d-Leu⁵]-enkephalin. Double reciprocal analysis suggested a mixed competitive-noncompetitive type of inhibition of [d-Ala², d-Leu⁵]-enkephalin binding by dihydromorphine. Thus, the interactions of - and -opiate ligands with -receptors may involve topographically different, but closely related binding sites, located on a single receptor molecule.Abbreviations DADL [d-Ala², d-Leu⁵]-enkephalin - DHM dihydromorphine - met-enkephalin methionine-enkephalin - leu-enkephalin leucine-enkephaline - FK 33-824 [d-Ala², MePhe⁴, Met(O)-ol]-enkephalin - EGTA ethyleneglycol-bis-(-aminoethylether) N, N'-tetraacetic acid - TRIS Tris (hydroxymethyl)-aminomethan     

The effects of dopamine D1 and D2 receptor antagonists on the rewarding effects of δ1 and δ2 opioid receptor agonists in mice

The effects of the dopamin D₁ antagonist SCH23390 and the D₂ antagonist sulpiride on the rewarding effects of opioid receptor agonists were examined in mice. Both [d-Pen², Pen⁵]enkephalin (DPDPE, 1–15 nmol, ICV), a selective ₁ opioid receptor agonist, and [d-Ala²]deltorphin II (DELT, 0.5–5 nmol, ICV), a selective ₂ opioid receptor agonist, produced a dose-dependent place preference in mice. The DPDPE (15 nmol, ICV)-induced place preference was abolished by BNTX (0.5 mg/kg, SC), a ₁ opioid receptor antagonist, but not by NTB (0.5 mg/kg, SC), a ₂ opioid receptor antagonist. In contrast, the DELT (5 nmol, ICV)-induced place preference was antagonized by NTB, but not BNTX. Pretreatment with SCH23390 (3 µg/kg, SC) abolished the DPDPE-induced place preference, but not affect the DELT-induced place preference. Moreover, pretreatment with sulpiride (40 mg/kg, SC) did not modify the place preference induced by DPDPE or DELT. In the present study, we found that the activation of both central ₁ and ₂ opioid receptors produced rewarding effects. Furthermore, these results suggest that the rewarding effects of ₁ opioid receptor agonist may be produced through activation of the central dopaminergic system, especially dopamine D₁ receptors, whereas the rewarding effects of ₂ opioid receptor agonists may be produced by some other mechanism(s).     

Ligand binding profile of the rat metabotropic glutamate receptor mGluR3 expressed in a transfected cell line

A cDNA clone encoding the rat metabotropic glutamate receptor mGluR3 was stably transfected into human embryonic kidney 293 cells. Receptor-expressing cell lines were characterized by centrifugation binding assays using [³H]glutamate as radioligand. The rank order of affinity was l-glutamate>(1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD)>L(+)-2-amino-3-phosphonopropionic acid (L-AP3)>quisqualic acid>L(+)-2-amino-4-phosphonobutyric acid (L-AP4)>ibotenic acid. The active enantiomers of several phenylglycines displayed K_i values of 300 to 400 M. The nonactive enantiomers and the standard ionotropic glutamate receptor ligands N-methyl-d-aspartic acid (NMDA), (R,S)--amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and kainic acid only weakly displaced [³H]glutamate. In this cell line, l-glutamate and (2S,3S,4S)--(Carboxycyclopropyl)-glycine (L-CCG-I) reduced cAMP levels in a dose-dependent manner. The sensitivity of this system and its easy applicability make it feasible to envisage ligand binding assays on cell lines expressing cloned receptors as useful screening tools to discover and characterize new and specific agonists and antagonists.     

Facilitating interaction between rauwolscine and angiotensin in the mesenteric artery of the rabbit

Summary The interaction between rauwolscine and angiotensin II was investigated in the isolated mesenteric artery of the rabbit. Rauwolscine, known as an antagonist at ₂-adrenoceptors, did not induce contraction itself but interacted with angiotensin to produce a facilitated response of the vascular tissue. In the presence of rauwolscine, the contractile response of the tissue to angiotensin was markedly enhanced. The degree of facilitation appeared to be dependent on the rauwolscine concentration used rather than that of angiotensin. Moreover, rauwolscine induced a concentration-dependent increase in tension (pD₂=6.8) in the presence of even subcontractile concentrations of angiotensin (10^–10 mol/l). This effect was not attributable to an indirect action involving presynaptic catecholamines, as revealed by the use of tissue strips from animals pretreated with reserpine or after chemical sympathectomy. Furthermore, an interaction via the prostaglandin system was excluded by negative results obtained with indomethacin. The agonistic effect of rauwolscine was significantly attenuated by phentolamine (₁/₂) but not by prazosin (₁) or phenoxybenzamine when applied for only a short time. The ₂-antagonist BDF 6143 behaved like rauwolscine whereas the ₁-antagonist corynanthine, a stereoisomer of rauwolscine, did not. The results indicate that the rauwolscine effect is mediated by a receptor with ₂-characteristics. In general, angiotensin appears to interfere with some process which determines the expression of a drug's intrinsic effect.This study was supported by a grant of the Deutsche Forschungsgemeinschaft     

Memory deficits induced byγ-l-glutamyl-l-aspartate andd-2-amino-5-phosphonovalerate in a Y-maze avoidance task: relationship to NMDA receptor antagonism

Post-training administration (ICV) of-l-glutamyl-l-aspartate (-lGLA) ord-2-amino-5-phosphonovalerate (d-AP5), a competitive NMDA antagonist, decreased retention of the temporal component but not the spatial discrimination component of a Y-maze active avoidance task. Inverted U-shaped dose-response curves were obtained for the ability of-lGLA andd-AP5 to decrease retention, with maximum effects occurring at doses of 2–20 nmol/mouse for-lGLA and 0.02 nmol/mouse ford-AP5.-lGLA andd-AP5 impaired the traction reflex only at doses (80 and 2 nmol/mouse, respectively) higher than those producing retention deficits. Convulsions induced by ICV administration of 1 nmol NMDA were antagonized by-lGLA andd-AP5 with ED₅₀ values of 46 (32–66) and 0.2 (0.16–0.25) nmol/mouse, respectively. The dose-effect curve of NMDA for producing convulsions was shifted to the right in a parallel manner and to the same extent by 80 nmol-lGLA and by 0.3 nmold-AP5. Taken together, these results are consistent with previous studies suggesting that the behavioral effects of-lGLA might be related to its NMDA receptor antagonist properties. The selectivity of the memory deficits induced by-lGLA andd-AP5 is in agreement with recent reports suggesting a role for NMDA receptors in the mechanisms underlying posttraining organization of memory traces.     

Dopamine inhibits prostaglandin F2α-induced depolarization of rabbit jejunal arteries via activation of DA1-receptors

Summary In rabbit jejunal arteries, the membrane potential of single smooth muscle cells decreased on the application of noradrenaline 3 mol/1. LY 171555 1 mol/1 did not change, whereas SKF 38393 10 mol/1 reversed the effect of noradrenaline. When prostaglandin F₂ (PGF₂) was used to evoke depolarization in the presence of prazosin 0.1 mol/1, rauwolscine 1 mol/1 and propranolol 1 mol/1, both SKF 38393 10 mol/1 and dopamine 10 mol/1 repolarized the membrane. SCH 23390 1 mol/1 antagonized the effects of SKF 38393 10 mol/1 and dopamine 10 mol/1. Thus, the change in membrane potential is mediated by a DA₁-recep-tor.