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.     

Characterization of the beta-adrenergic receptor mediating secretion of parathyroid hormone

In vitro incubation studies with bovine parathyroid gland slices compared the relative responsiveness of parathyroid hormone (PTH) secretion to isoprotherenol, epinephrine or norepinephrine. Isoproterenol was the most potent and norepinephrine the least potent of the three stimuli, suggesting a beta 2 type of an adrenergic response. However in this in vitro system, tazalol, a selective beta 1 adrenergic agonist significantly stimulated PTH secretion, whereas terbutaline, a selective beta 2 agonist had no effect. In addition, practolol, a selective beta 1 adrenergic antagonist blocked isoproterenol- or tazolol-stimulated PTH secretion. In vivo studies in normal human subjects showed that injection of te nonselective beta agonist, isoproterenol, (0.15 mg s.c.) significantly increased, whereas injection of the selective beta 2 agonist, terbulatine (0.3 mg s.c.) had no effect on serum PTH levels. These latter studies with putative selective beta adrenergic agents suggest that the beta adrenergic receptor mediating PTH secretion is of the beta 1 type (in contrast to the studies above with nonselective agents). The studies suggest that the beta adrenergic receptor mediating PTH secretion apparently differs from the classical beta 1 receptor described in th myocardium or the classical beta 2 receptor described in the bronchial smooth muscle.     

Apparent molecular weight of substance P/neurokinin-1 receptors determined using a photoaffinity labelled probe, [(3'-125I) D-Tyro, (4'-N3)Phe8, Nle11]-substance P

A photoreactive derivative, [(3'-125I) D-Tyro, (4'-N3)Phe8, Nle11]-substance P (SP) was prepared and iodinated using carrier-free [125I] to determine the apparent molecular weight of one sub-type of neurokinin (NK) receptor, the SP/NK-1 type. The unlabelled analogue competed for [3H]-SP sites with an IC50 of 10 nM. The radioactive photoprobe (KD approximately 0.17 nM, Bmax = 15.6 fmol/mg protein) was used to photoaffinity label membranes prepared from rat brain. Autoradiographs revealed that a single band with an apparent molecular weight of 46,000 daltons was specifically labelled. This labelling was inhibited by non-radioactive SP in a concentration-dependent manner (1.0 nM-0.1 mM) suggesting that the observed labelling represents the SP/NK-1 receptor type.     

Parathyroid hormone secretion does not respond to changes of free calcium in electropermeabilized bovine parathyroid cells, but is stimulated with phorbol ester and cyclic AMP

The secretion of parathyroid hormone (PTH) is suppressed in bovine parathyroid cells by raised extracellular [Ca2+], and 12-0-tetradecanoyl-phorbol-13-acetate (TPA) stimulates the release of PTH from cells suppressed by high extracellular [Ca2+]. Extracellular and cytosolic free [Ca2+] are proportionally related in intact cells. To assess the role of cytosolic free [Ca2+] on PTH secretion, bovine parathyroid cells were rendered permeable by brief exposure to an intense electric field. PTH secretion was comparable at 40 nM, 500 nM, 5 microM, 28 microM, 0.5 mM and 2 mM [Ca2+] (release of total cellular PTH 3.7 +/- 0.5%, 3.9 +/- 0.4%, 3.4% +/- 0.3%, 3.9 +/- 0.4%, 3.1 +/- 0.3%, 3.5 +/- 0.7%, respectively), but the secretion was stimulated twofold (P less than 0.05 vs. control) in a dose and ATP dependent manner with TPA (100 nM) and cyclic AMP (1 mM). As a result, free [Ca2+] in the range of those observed in intact cells during regulation of PTH secretion by changes of extracellular [Ca2+] did not affect the release of PTH in permeabilized cells. The [Ca2+] independent stimulation of PTH release by TPA and cyclic AMP indicates that changes of cytosolic free [Ca2+] may represent a secondary event not related to the regulation of PTH secretion.     

Stimulus-secretion coupling in bovine parathyroid cells. Dissociation between secretion and net changes in cytosolic Ca2+

The relationship between the concentration of cytosolic free Ca2+ ([Ca2+]i) and secretion of parathyroid hormone (PTH) was investigated in isolated bovine parathyroid cells using the fluorescent Ca2+ indicator, quin 2. Increasing the concentration of extracellular Ca2+ from 0.5 to 2.0 mM caused a 3-fold increase in [Ca2+]i (from 183 +/- 4 to 568 +/- 21 nM) which was associated with a 2-4-fold decrease in secretion of PTH. Decreasing extracellular Ca2+ to about 1 microM caused a corresponding fall in [Ca2+]i to 60-90 nM. Extracellular Ca2+-induced changes in [Ca2+]i were not affected by omission of extracellular Na+. Depolarizing concentrations of K+ (30 mM) depressed [Ca2+]i at all concentrations of extracellular Ca examined, and this was associated with increased secretion of PTH. Ionomycin (0.1 or 1 microM) increased [Ca2+]i at extracellular Ca2+ concentrations of 0.5, 1.0, and 2.0 mM, but inhibited secretion of PTH only at Ca concentrations near the "Ca2+ set point" (1.25 microM). In contrast, dopamine, norepinephrine (10 microM each), and Li+ (20 mM) potentiated secretion of PTH without causing any detectable change in [Ca2+]i. The results obtained with these latter secretagogues provide evidence for a mechanism of secretion which is independent of net changes in [Ca2+]i. The phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA) did not alter [Ca2+]i or secretion of PTH at low (0.5 mM) extracellular Ca2+ concentrations. At 2.0 mM extracellular Ca2+, however, TPA (20 nM or 1 microM) depressed [Ca2+]i and potentiated secretion of PTH. The addition of TPA prior to raising the extracellular Ca2+ concentration reduced the subsequent increase in [Ca2+]i. The results show that the effects of TPA on secretion in the parathyroid cell are not readily dissociated from changes in [Ca2+]i and suggest that some TPA-sensitive process, perhaps involving protein kinase C, may be involved in those mechanisms that regulate [Ca2+]i in response to changes in extracellular Ca2+.     

Substance P induces migration of capillary endothelial cells: a novel NK-1 selective receptor mediated activity.

Substance P (SP) has been indicated as a main mediator of neurogenic inflammation, leading to vasodilation, increase in vascular permeability and modulation of immune cell function. Certain vascular effects produced by SP are endothelium mediated. We have studied the effect of SP and of selective NK-1, NK-2 and NK-3 receptor agonists on migration of cultured capillary endothelial cells of bovine origin. Our results indicate that SP (10(-14)-10(-6) M) induces a concentration-dependent migration of endothelial cells with maximal activity at 10(-10) M. This effect was mimicked by the selective NK-1 receptor agonist which showed a similar concentration-dependent curve, while selective NK-2 and NK-3 receptor agonists were ineffective. Our conclusions are that endothelial cells possess specific receptors for SP of the NK-1 type which affect mobilization of capillary endothelial cells.     

Direct inhibitory effect of amino-terminal parathyroid hormone fragment [PTH(1-34)] on PTH secretion from bovine parathyroid primary cultured cells in vitro

We have examined the possibility of direct inhibitory effect of PTH(1-34) on PTH secretion in bovine parathyroid cells. As low as 10(-12) M PTH(1-34) completely inhibited low calcium (0.5 mM Ca2+)-stimulated PTH secretion by these cells. In the presence of 1.25 mM Ca2+, 10(-12) M PTH(1-34) inhibited PTH secretion by about 14.3% of the basal value, while 10(-11) M or higher concentration of PTH(1-34) showed potent inhibitory effects equivalent to the inhibitory action of high calcium concentration (2.5 mM Ca2+) on PTH secretion. At 2.5 mM Ca2+, as much as 10(-9) M PTH(1-34) failed to inhibit PTH secretion further. These results suggest that PTH(1-34) might directly, not via calcium concentration, inhibit PTH secretion by parathyroid cells and that a cooperative mechanism could exist between calcium and PTH(1-34) to inhibit PTH secretion.     

Substance induces migration of capillary endothelial cells: A novel NK-1 selective receptor mediated activity

Substance P (SP) has been indicated as a main mediator of neurogenic inflammation, leading to vasodilation, increase in vascular permeability and modulation of immune cell function. Certain vascular effects produced by SP are endothelium mediated. We have studied the effect of SP and of selective NK-1, NK-2 and NK-3 receptor agonists on migration of cultured capillary endothelial cells of bovine origin. Our results indicate that SP (10⁻¹⁴–10⁻⁶ M) induces a concentration-dependent migration of endothelial cells with maximal activity at 10⁻¹⁰ M. This effect was mimicked by the selective NK-1 receptor agonist which showed a similar concentration-dependent curve, while selective NK-2 and NK-3 receptor agonists were ineffective. Our conclusions are that endothelial cells possess specific receptors for SP of the NK-1 type which affect mobilization of capillary endothelial cells.     

Backbone Cyclization of the C-terminal Part of Substance P. Part 1: The Important Role of the Sulphur in Position 11

Novel backbone-to-side chain and backbone-to-backbone cyclic analogues of substance P (SP) were prepared by solid-phase synthesis and screened for biological activity. An analogue containing a thioether- lactam ring between positions 9 and 11 showed an EC₅₀ value of 20nM toward the neurokinin 1 (NK-1) and was inactive toward the NK-2 and NK-3 receptors. On the other hand, in a multiple backbone cyclic peptide library of similar analogues, in which the sulphur was excluded from the ring, very low activity was detected. The activity was re-evaluated and was found to be even lower (EC₅₀=0.11 mM ) than the previously published data. These results indicate that the thioether moiety has a crucial role in receptor activation. The results also show tolerance of the NK-1 receptor, but not NK-2 or NK-3, to cyclization of the C-terminal portion of the SP_6–11 hexapeptide.     

Dimethyl sulfoxide increases cytoplasmic Ca2+ concentration and inhibits parathyroid hormone release in normal bovine and pathological human parathyroid cells

The acute effects of dimethyl sulfoxide (DMSO) on parathyroid hormone (PTH) release and the cytoplasmic Ca2+ concentration (Ca2+i) were studied in dispersed bovine cells and cells isolated from human parathyroid adenomas. At extracellular Ca2+ concentrations in the 0.5-3.0 mM range, but not at less than 25 nM, addition of 2% DMSO caused a rapid rise of Ca2+i. This effect corresponded to an inhibition of PTH release and there was a strong negative correlation between Ca2+i and secretion. The actions of DMSO on Ca2+i and PTH release were less pronounced in the pathological human cells. The data are consistent with a DMSO effect on the Ca2+-sensor function of the parathyroid cell, possibly mediated by an altered plasma membrane fluidity.     

Discovery of an orally bioavailable alkyl oxadiazole beta3 adrenergic receptor agonist

5-n-Pentyl oxadiazole substituted benzenesulfonamide 8 is a potent and selective beta3 adrenergic receptor agonist (beta3 EC50 = 23 nM, beta1 IC50 = 3000 nM, beta2 IC50 = 3000 nM). The compound has high oral bioavailability in dogs (62%) and rats (36%) and is among the most orally bioavailable beta3 adrenergic receptor agonists reported to date.     

Zebrafish express the common parathyroid hormone/parathyroid hormone-related peptide receptor (PTH1R) and a novel receptor (PTH3R) that is preferentially activated by mammalian and fugufish parathyroid hormone-related peptide.

To further explore the evolution of receptors for parathyroid hormone (PTH) and PTH-related peptide (PTHrP), we searched for zebrafish (z) homologs of the PTH/PTHrP receptor (PTH1R). In mammalian genes encoding this receptor, exons M6/7 and M7 are highly conserved and separated by 81-84 intronic nucleotides. Genomic polymerase chain reaction using degenerate primers based on these exons led to two distinct DNA fragments comprising portions of genes encoding the zPTH1R and the novel zPTH3R. Sequence comparison of both full-length teleost receptors revealed 69% similarity (61% identity), but less homology with zPTH2R. When compared with hPTH1R, zPTH1R showed 76% and zPTH3R 67% amino acid sequence similarity; similarity with hPTH2R was only 59% for both teleost receptors. When expressed in COS-7 cells, zPTH1R bound [Tyr(34)]hPTH-(1-34)-amide (hPTH), [Tyr(36)]hPTHrP-(1-36)-amide (hPTHrP), and [Ala(29),Glu(30), Ala(34),Glu(35), Tyr(36)]fugufish PTHrP-(1-36)-amide (fuguPTHrP) with a high apparent affinity (IC(50): 1.2-3.5 nM), and was efficiently activated by all three peptides (EC(50): 1.1-1.7 nM). In contrast, zPTH3R showed higher affinity for fuguPTHrP and hPTHrP (IC(50): 2.1-11.1 nM) than for hPTH (IC(50): 118.2-127.0 nM); cAMP accumulation was more efficiently stimulated by fugufish and human PTHrP (EC(50): 0.47 +/- 0.27 and 0.45 +/- 0.16, respectively) than by hPTH (EC(50): 9.95 +/- 1.5 nM). Agonist-stimulated total inositol phosphate accumulation was observed with zPTH1R, but not zPTH3R.     

Paradoxical effects of K+ and D-600 on parathyroid hormone secretion and cytoplasmic Ca2+ in normal bovine and pathological human parathyroid cells

The effects of K+ and the Ca2+ channel blocker D-600 on parathyroid hormone (PTH) release and cytoplasmic Ca2+ activity (Ca2+i) were measured at different Ca2+ concentrations in dispersed parathyroid cells from normal cattle and from patients with hyperparathyroidism. When the extracellular Ca2+ concentration was raised within the 0.5-3.0 mM range Ca2+i increased and PTH secretion was inhibited. There was also a stimulatory effect of Ca2+ on secretion as indicated by a parallel decrease of Ca2+i and PTH release when extracellular Ca2+ was reduced to less than 25 nM. Addition of 30-50 mM K+ stimulated PTH release and lowered Ca2+i. The effect of K+ was less pronounced in the human cells with a decreased suppressability of PTH release. The Ca2+ channel blocker D-600 had no effect on Ca2+i and PTH release in the absence of extracellular Ca2+. However, at 0.5-1.0 mM Ca2+, D-600 increased Ca2+i and inhibited PTH release, whereas the opposite effects were obtained at 3.0 mM Ca2+. The transition from inhibition to stimulation occurred at a higher Ca2+ concentration in the human cells and the right-shift in the dose-effect relationship for Ca2+-inhibited PTH release tended to be normalized by D-600. It is suggested that K+ stimulates PTH release by increasing the intracellular sequestration of Ca2+ and that the reduced response in the parathyroid human cells is due to the fact that Ca2+i already is lowered. D-600 appears to have both Ca2+ agonistic and antagonistic actions in facilitating and inhibiting Ca2+ influx into the parathyroid cells at low and high concentrations of extracellular Ca2+, respectively. D-600 and related drugs are considered potentially important for the treatment of hyperparathyroidism.     

The two NK-1 binding sites correspond to distinct, independent, and non-interconvertible receptor conformational states as confirmed by plasmon-waveguide resonance spectroscopy

Two nonstoichiometric ligand binding sites have been previously reported for the NK-1 receptor, with the use of classical methods (radioligand binding and second messenger assays). The most populated (major, NK-1M) binding site binds substance P (SP) and is related to the adenylyl cyclase pathway. The less populated (minor, NK-1m) binding site binds substance P, C-terminal hexa- and heptapeptide analogues of SP, and the NK-2 endogenous ligand, neurokinin A, and is coupled to the phospholipase C pathway. Here, we have examined these two binding sites with plasmon-waveguide resonance (PWR) spectroscopy that allows the thermodynamics and kinetics of ligand-receptor binding processes and the accompanying structural changes of the receptor to be monitored, through measurements of the anisotropic optical properties of lipid bilayers into which the receptor is incorporated. The binding of the three peptides, substance P, neurokinin A, and propionyl[Met(O(2))(11)]SP(7-11), to the partially purified NK-1 receptor has been analyzed by this method. Substance P and neurokinin A bind to the reconstituted receptor in a biphasic manner with two affinities (K(d1) = 0.14 +/- 0.02 nM and K(d2) = 1.4 +/- 0.18 nM, and K(d1) = 5.5 +/- 0.7 nM and K(d2) = 620 +/- 117 nM, respectively), whereas only one binding affinity (K(d) = 5.5 +/- 0.4 nM) could be observed for propionyl[Met(O(2))(11)]SP(7-11). Moreover, binding experiments in which one ligand was added after another one has been bound to the receptor have shown that the binding of these ligands to each binding site was unaffected by the fact that the other site was already occupied. These data strongly suggest that these two binding sites are independent and non-interconvertible on the time scale of these experiments (1-2 h).     

Different secretory actions of pancreastatin in bovine and human parathyroid cells

Chromogranin A is an acidic protein that is costored and cosecreted with parathyroid hormone (PTH) from parathyroid cells. Pancreastatin (PST), is derived from chromogranin A, and inhibits secretion from several endocrine/neuroendocrine tissues. Effects of different pancreastatin peptides were investigated on dispersed cells from bovine and human parathyroid glands. Bovine PST(1–47) and bovine PST(32–47) inhibited PTH release from bovine cells in a dose-dependent manner. The former peptide was more potent and suppressed the secretion at 1–100 nM. This inhibition was evident in 0.5 and 1.25 mM, but not in 3.0 mM external Ca²⁺. Both peptides failed to alter the concentration of cytoplasmic Ca²⁺([Ca²⁺]_i) of bovine cells. Human PST(1–52) and PST(34–52) did not affect PTH release or [Ca²⁺]_i of parathyroid cells from patients with hyperparathyroidism, nor [Ca²⁺]_i of normal human parathyroid cells. Furthermore, bovine PST(1–47) and bovine PST(32–47) failed to alter the secretion of abnormal human parathyroid cells. The study indicates that PST exerts secretory inhibition on bovine but not human parathyroid cells, and that this action does not involve alterations of [Ca²⁺]_i.     

Phosphorylation and Desensitization of the Neurokinin-1 Receptor Expressed in Epithelial Cells

A rat kidney epithelial cell line expressing the rat neurokinin-1 receptor (NK-1 R) was used to investigate the relationship between receptor phosphorylation and desensitization. Substance P (SP) maximally stimulated cellular inositol 1,4,5-trisphosphate (IP3) production 14-fold within 3 s, after which cellular IP3 levels rapidly diminished to near basal levels in the continuing presence of SP. SP also caused concentration-dependent phosphorylation of the NK-1R, and this effect was blocked by a receptor antagonist. Stimulation with 100 nM SP for as little as 2 s resulted in 90% desensitization of the receptor to restimulation by SP, and near-maximal receptor phosphorylation was observed at 5 s. Receptor desensitization was not affected by agents that affect protein kinase A. Phorbol 12-myristate 13-acetate (PMA) also caused phosphorylation and desensitization of the receptor but with slower kinetics and to a lesser extent than SP. PMA- but not SP-induced NK-1 R desensitization and phosphorylation were abolished by the protein kinase C inhibitor bisindolylmaleimide 1. The concentration-response curves for SP-stimulated IP3 signaling and desensitization were similar, but the curve for NK-1R phosphorylation was shifted to the right and was steeper, suggesting that the relationship between desensitization and phosphorylation is complex. These results show that both rapid homologous and rapid heterologous NK-1R desensitizations may be mediated by receptor phosphorylation but occur via distinct mechanisms with different kinetics and efficacies.     

Mutational analysis of the receptor-activating region of human parathyroid hormone.

The first 4 residues of parathyroid hormone (PTH) are highly conserved in evolution and are important for biological activity. We randomly mutated codons 1-4 of human PTH (hPTH) with degenerate oligonucleotides and, after expression in COS cells, screened the mutants for receptor binding and cAMP-stimulating activity using ROS 17/2.8 cells. This survey identified Glu4 and Val2 as important determinants of receptor binding and activation, respectively. Positions 1 and 3 were more tolerant of substitutions indicating that these sites are less vital to hormone function. Activities of synthetic hPTH(1-34) analogs further demonstrated the importance of positions 2 and 4. The binding affinity of [Ala4,Tyr34] hPTH(1-34)NH2 was 100-fold reduced relative to [Tyr34]hPTH(1-34)NH2 (Kd values = 653 +/- 270 and 4 +/- 1 nM, respectively), and [Arg2, Tyr34]hPTH(1-34)NH2 was a weak partial agonist which bound well to the ROS cell receptor (Kd = 31 +/- 10 nM). The Arg2 analog was nearly as potent as PTH(3-34) as an in vitro PTH antagonist in osteoblast derived cells. However, unlike PTH(3-34), [Arg2]PTH was a full agonist in opossum kidney (OK) cells. These observations suggest that the activation domains of the OK and ROS cell PTH receptors are different. Thus, amino-terminal PTH analogs may be useful as probes for distinguishing properties of PTH receptors.     

NKP608: a selective NK-1 receptor antagonist with anxiolytic-like effects in the social interaction and social exploration test in rats

NKP608 is a non-peptidic derivative of 4-aminopiperidine which acts as a selective, specific and potent antagonist at the neurokinin-1 (NK-1) receptor both in vitro and in vivo. In vitro, the binding of NKP608 to bovine retina was characterized by an IC50 of 2.6+/-0.4 nM, whereas the compound's affinity to other receptor binding sites, including NK-2 and NK-3, was much lower. Species differences in IC(50) values with NKP608 were less pronounced than with previously described NK-1 receptor antagonists, being 13+/-2 and 27+/-2 nM in gerbil midbrain and rat striatum, respectively. In vivo, using the hind foot thumping model in gerbils, NKP608 exhibited a potent NK-1 antagonistic activity following oral administration (ID(50)=0.23 mg/kg; 2 h pretreatment), supporting a central activity of NKP608. The compound had a long duration of action with an ID(50) value of 0. 15 mg/kg p.o. and 0.38 mg/kg p.o. following a pretreatment of 5 and 24 h, respectively. Following a subchronic administration for 7 consecutive days (once daily) there was no evidence for the development of tolerance or accumulation. In the social interaction test performed in a highly illuminated, unfamiliar test arena, NKP608 specifically increased the time the two rats spent in social contact, and there was no concomitant increase in parameters reflecting general activity, i.e. ambulation (number of square entries) or the number of rearings. Active social time was maximally increased at a dose range of 0.01-1 mg/kg p.o. NKP608, the effect being weaker or absent at both lower (0.001 mg/kg p.o.) and higher (10 mg/kg p.o.) doses. A comparable bell-shaped dose-response relation was seen in the social exploration test in rats. In this modified resident/intruder paradigm, maximal increase in social contact of the intruder rat directed towards the resident rat was seen at a similar dose range (0.03-3 mg/kg p.o.) The effects observed following an acute oral administration of NKP608 were comparable to those seen following a treatment with the well-known benzodiazepine, chlordiazepoxide, in both these tests. These findings indicate that NKP608 exhibits an anxiolytic-like effect and that this effect, as concluded from the observed antagonism of the hind foot thumping induced by i.c.v. administration of the NK-1 receptor agonist SPOMe, is centrally mediated. This makes this compound a potentially promising candidate for treating anxiety-related disorders in humans.     

N-Alkylidenearylcarboxamides as new potent and selective CB(2) cannabinoid receptor agonists with good oral bioavailability

A novel series of N-alkylidenearylcarboxamides 4, a CB(2) receptor agonist, were synthesized and evaluated for activity against the human CB(2) receptor. In a previous paper, we reported that sulfonamide derivative 1 acted as a potent CB(2) receptor agonist (IC(50)=65 nM, EC(50)=19 nM, E(max)=90%). However, compound 1 also exhibited poor metabolic stability in human liver microsomes. During the structural modification of 1, we found that a novel series of N-alkylidenearylcarboxamide, 4-1, had a moderate affinity for the CB(2) receptor (IC(50)=260 nM, EC(50)=86 nM, E(max)=100%) and good metabolic stability in human liver microsomes. We explored its analogues to discover compounds with a high affinity for the CB(2) receptor and with good oral bioavailability. Among them, compounds 4-9 and 4-27 had high affinities for the human CB(2) receptor (CB(2) IC(50)=13 nM and 1.2 nM) and a high selectivity for CB(2) (CB(1) IC(50)/CB(2) IC(50)=270 and 1600); furthermore, significant plasma levels were observed following oral administration in rats (C(max)=233 ng/mL and 148 ng/mL, respectively, after a dose of 10 mg/kg). Furthermore, compound 4-9 had good oral bioavailability (F=52%, 3mg/kg).     

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.