In memory of Norman Bowery (1944-2016)

This article is in memory of Professor Norman Bowery (1944-2016). Norman was a pharmacologist who spent most of his career researching the pharmacology of γ-aminobutyric acid (GABA). He discovered a novel metabotropic receptor subtype, GABA_B, that is pharmacologically, and structurally different from the original ionotropic receptor now designated as GABA_A. In his research he also studied the neurotransmitters glutamate and substance P, two molecules whose release in parts of the spinal cord is inhibited by baclofen a GABA_B receptor agonist. Norman was interested in the therapeutic potential of interacting with the GABA_B receptor, in particular spasticity, pain and absence epilepsy.

Clinical pharmacology in neuroscience drug discovery: quo vadis?

Clinical Pharmacology in Neuroscience Drug Discovery in recent years has concentrated on First Time in Human safety and pharmacokinetics. The more traditional pharmacological research in humans has been reduced mainly as a response to the difficulty of developing human pharmacology models in neuroscience diseases. As a consequence, opportunities are being missed to aid in target selection and in target validation. The decision of big Pharma to reduce investment from the Neurosciences has had implications for clinical pharmacologists in this area. It remains to be seen whether academia, government laboratories and contract houses will respond to the challenge of carrying out increased Clinical Pharmacology in the Neurosciences.

Efficacy of vestipitant, a neurokinin-1 receptor antagonist, in primary insomnia

STUDY OBJECTIVES

Investigate the hypnotic effects of repeated doses of neurokinin-1 receptor antagonist, vestipitant, in primary insomnia.

DESIGN

Randomized, double-blind, placebo-controlled 28-day parallel-group study.

SETTING

Eleven sleep centers in Germany.

PATIENTS

One hundred sixty-one patients with primary insomnia.

INTERVENTIONS

Patients received vestipitant (15 mg) or placebo for 28 days; 2-night polysomnographic assessment occurred on nights 1/2 and 27/28.

MEASUREMENTS AND RESULTS

Wake after sleep onset (WASO) was improved on nights 1/2 and 27/28 (ratio, vestipitant versus placebo [95% confidence interval]: 0.76 [0.65, 0.90], P = 0.001 and 0.79 [0.65, 0.96], P = 0.02, respectively), demonstrating maintenance of the effect following repeated dosing. Latency to persistent sleep was shorter with vestipitant on nights 1/2 (P = 0.0006 versus placebo), but not on nights 27/28. Total sleep time (TST) improved with vestipitant (nights 1/2: P < 0.0001, nights 27/28: P = 0.02 versus placebo). Next-day cognitive function tests demonstrated no residual effects of vestipitant (P > 0.05 versus placebo). Adverse events (AEs) occurred in 25% of vestipitant patients versus 22% for placebo. Headache was the most common AE (8% of vestipitant patients versus 9% for placebo).

CONCLUSIONS

Vestipitant improved sleep maintenance in patients with primary insomnia, with no associated next-day cognitive impairment. The effects on wake after sleep onset and total sleep time were maintained following repeated dosing.

Synthesis and structure-activity relationship of new 1,5-dialkyl-1,5-benzodiazepines as cholecystokinin-2 receptor antagonists

This article deals with the synthesis and the activities of some 1,5-dialkyl-3-arylureido-1,5-benzodiazepin-2,4-diones which were prepared as potential CCK2 antagonists, with the intention to find a possible follow up of our lead compound GV150013, showing an improved pharmacokinetic profile. The phenyl ring at N-5 was replaced with more hydrophilic substituents, like alkyl groups bearing basic functions. In some cases, the resolution of the racemic key intermediates 3-amino-benzodiazepines was also accomplished. Among the compounds synthesized and characterised so far in this class, the 5-morpholinoethyl derivative 54, was selected as potential follow up of GV150013 and submitted for further evaluation.

A selective neurokinin-1 receptor antagonist in chronic PTSD: a randomized, double-blind, placebo-controlled, proof-of-concept trial

The substance P-neurokinin-1 receptor (SP-NK(1)R) system has been extensively studied in experimental models of stress, fear, and reward. Elevated cerebrospinal fluid (CSF) SP levels were reported previously in combat-related PTSD. No medication specifically targeting this system has been tested in PTSD. This proof-of-concept randomized, double-blind, placebo-controlled trial evaluated the selective NK(1)R antagonist GR205171 in predominately civilian PTSD. Following a 2-week placebo lead-in, 39 outpatients with chronic PTSD and a Clinician-Administered PTSD Scale (CAPS) score ≥50 were randomized to a fixed dose of GR205171 (N=20) or placebo (N=19) for 8weeks. The primary endpoint was mean change from baseline to endpoint in the total CAPS score. Response rate (≥50% reduction in baseline CAPS) and safety/tolerability were secondary endpoints. CSF SP concentrations were measured in a subgroup of patients prior to randomization. There was significant improvement in the mean CAPS total score across all patients over time, but no significant difference was found between GR205171 and placebo. Likewise, there was no significant effect of drug on the proportion of responders [40% GR205171 versus 21% placebo (p=0.30)]. An exploratory analysis showed that GR205171 treatment was associated with significant improvement compared to placebo on the CAPS hyperarousal symptom cluster. GR205171 was well-tolerated, with no discontinuations due to adverse events. CSF SP concentrations were positively correlated with baseline CAPS severity. The selective NK(1)R antagonist GR205171 had fewer adverse effects but was not significantly superior to placebo in the short-term treatment of chronic PTSD. (ClinicalTrials.gov Identifier: NCT 00211861, NCT 00383786).

Discovery and biological characterization of (2R,4S)-1'-acetyl-N-{(1R)-1-[3,5-bis(trifluoromethyl)phenyl]ethyl}-2-(4-fluoro-2-methylphenyl)-N-methyl-4,4'-bipiperidine-1-carboxamide as a new potent and selective neurokinin 1 (NK1) receptor antagonist clinical candidate

A large body of compelling preclinical evidence supports the clinical use of neurokinin (NK) receptor antagonists in a plethora of CNS and non-CNS therapeutic areas. The significant investment made in this area over the past 2 decades culminated with the observation that NK(1) receptor antagonists elicited clinical efficacy in major depression disorders. In addition, aprepitant (Merck) was launched as a new drug able to prevent chemotherapy-induced nausea and vomiting (CINV). After the discovery by GlaxoSmithKline of vestipitant, a wide drug discovery program was launched aimed at identifying additional clinical candidates. New compounds were designed to maximize affinity at the NK(1) receptor binding site while retaining suitable physicochemical characteristics to ensure excellent pharmacokinetic and pharmacodynamic properties in vivo. Herein we describe the discovery process of a new NK(1) receptor antagonist (casopitant) selected as clinical candidate and progressed into clinical studies to treat major depression disorders.

Synthesis and pharmacological characterization of novel druglike corticotropin-releasing factor 1 antagonists

To identify new CRF(1) receptor antagonists, an attempt to modify the bis-heterocycle moiety present in the top region of the dihydropyrrole[2,3]pyridine template was made following new pharmacophoric hypothesis on the CRF(1) receptor antagonists binding pocket. In particular, the 2-thiazole ring, present in the previous series of compounds, was replaced by more hydrophilic non aromatic heterocycles able to make appropriate H-bond interactions with amino acid residues Thr192 and Tyr195. This exploration, followed by an accurate analysis of the substitution of the pendant aryl ring, enabled to identify in vitro potent compounds showing excellent pharmacokinetics and outstanding in vivo activity in animal models of anxiety, both in rodents and primates.

Synthesis and pharmacological characterisation of 2,4-dicarboxy-pyrroles as selective non-competitive mGluR1 antagonists

Metabotropic glutamate receptors (mGluRs) are an unusual family of G-protein coupled receptor (GPCR), and are characterised by a large extracellular N-terminal domain that contains the glutamate binding site. We have identified a new class of non-competitive metabotropic glutamate receptor 1 (mGluR1) antagonists, 2,4-dicarboxy-pyrroles which are endowed with nanomolar potency. They interact within the 7 transmembrane (7TM) domain of the receptor and show antinociceptive properties when tested in a number of different animal models.

Synthesis and SAR of new 5-phenyl-3-ureido-1,5-benzodiazepines as cholecystokinin-B receptor antagonists

A series of 5-phenyl-3-ureidobenzodiazepine-2,4-diones was synthesized and evaluated as cholecystokinin-B (CCK-B) receptor antagonists. Structure-activity relationship (SAR) studies revealed the importance of the N-1 substituent for potent and selective CCK-B affinity. Addition of substituents at the urea side chain provided in some cases more potent compounds. Moreover the introduction of bulky substituents such as adamantylmethyl at N-1 and resolution of the racemic ureas resulted in our lead compound GV150013.

Excitatory amino acid agonists and antagonists: pharmacology and therapeutic applications

Glutamic acid is the major excitatory neurotransmitter in the mammalian central nervous system (CNS). Specific receptors bind glutamate and some of these when activated open an integral ion channel and are thus known as ionotropic receptors. Within the ionotropic family of glutamate receptors, three major subtypes have been identified using classical specific agonist activation, selective competitive antagonists together with their structural heterogeneity. These receptors have thus been named N-methyl-D-aspartate (NMDA), alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) and kainate receptors. The NMDA receptor has sites in addition to its agonist-binding site and these seem to either positively or negatively modulate the agonist effect. The NMDA receptor also is unique in that another amino acid, glycine, acts as a co-agonist with glutamate. Changes in glutamate transmission have been associated with a number of CNS pathologies; these include, acute stroke, chronic neurodegeneration, chronic pain, depression, drug dependency, epilepsy, Parkinson's Disease and schizophrenia.

Extracellular matrix gene expression in the left ventricular tissue of spontaneously hypertensive rats

The aim of this study was to investigate the extracellular matrix gene expression in the hypertrophied left ventricular tissue of spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats, at early and mature ages. Interestingly, with age, a marked increase (+85% and +187% at 25 and 30 weeks of age, respectively, p < 0.01, vs 5 weeks) in matrix metalloproteinase-1 (MMP-1) mRNA levels in SHR and a progressive decrease (-50%, -70%, -78%, -70% at 10, 15, 25 and 30 weeks, respectively, p < 0.01, vs 5 weeks) in WKY were seen. Moreover, mRNA levels were significantly lower in SHR at 5 weeks. The analysis of mRNA expression for the tissue inhibitor of metalloproteinase-1 (TIMP-1) showed a significant increase in WKY (+44% and +44%, vs 15 and 25 weeks, respectively, p < 0.05), whereas there were no significant changes in SHR with development. At 30 weeks TIMP-1 mRNA levels were significantly reduced in SHR. Temporal trends of procollagen alpha1(I) and procollagen alpha1(III) mRNA levels were similar in both strains, but lower levels for procollagen alpha1(III) were found in SHR at 5 and 30 weeks. Although no significant differences were measured between the strains, mRNA levels for fibronectin were found decreased in WKY and increased in SHR with age. The results of the present study suggest an altered balance between collagen deposition and collagen degradation with development in this model of left ventricular hypertrophy and hypertension.

Potent antihyperalgesic activity without tolerance produced by glycine site antagonist of N-methyl-D-aspartate receptor GV196771A

Central sensitization is a condition of enhanced excitability of spinal cord neurons that contributes to the exaggerated pain sensation associated with chronic tissue or nerve injury. N-methyl-D-aspartate (NMDA) receptors are thought to play a key role in central sensitization. We have tested this hypothesis by characterizing in vitro and in vivo a novel antagonist of the NMDA receptor acting on its glycine site, GV196771A. GV196771A exhibited an elevated affinity for the NMDA glycine binding site in rat cerebral cortex membranes (pKi = 7.56). Moreover, GV196771A competitively and potently antagonized the activation of NMDA receptors produced by glycine in the presence of NMDA in primary cultures of cortical, spinal, and hippocampal neurons (pKB = 7.46, 8. 04, and 7.86, respectively). In isolated baby rat spinal cords, 10 microM GV196771A depressed wind-up, an electrical correlate of central sensitization. The antihyperalgesic properties of GV196771A were studied in a model of chronic constriction injury (CCI) of the rat sciatic nerve and in the mice formalin test. In the CCI model GV196771A (3 mg/kg twice a day p.o.), administered before and then for 10 days after nerve ligature, blocked the development of thermal hyperalgesia. Moreover, GV196771A (1-10 mg/kg p.o.) reversed the hyperalgesia when tested after the establishment of the CCI-induced hyperalgesia. In the formalin test GV196771A (0.1-10 mg/kg p.o.) dose-dependently reduced the duration of the licking time of the late phase. These antihyperalgesic properties were not accompanied by development of tolerance. These observations strengthen the view that NMDA receptors play a key role in the events underlying plastic phenomena, including hyperalgesia. Moreover, antagonists of the NMDA glycine site receptor could represent a new analgesic class, effective in conditions not sensitive to classical opioids.

NMDA NR1 subunit mRNA and glutamate NMDA-sensitive binding are differentially affected in the striatum and pre-frontal cortex of Parkinson's disease patients

Changes in the levels of mRNA for the NR1 subunit of the glutamate NMDA receptor and in NMDA-sensitive glutamate binding were investigated in consecutive sections of the prefrontal cortex and striatum of control and Parkinson's disease (PD) post-mortem brain using in-situ hybridisation and receptor autoradiography. Both markers of NMDA receptors were found to be relatively unaffected when measured by microdensitometry in the prefrontal cortex of control and PD brains. At a cellular level, a subpopulation of small and medium neurons in the superficial layers of the prefrontal cortex of the PD group showed a decreased expression of NMDA NR1 mRNA, with the maximal decrease in cortical layer IV. In the striatum, levels of glutamate binding to the NMDA receptor detected by receptor autoradiodgraphy were significantly reduced in the PD group, while no change could be detected at a macroscopical level in NMDA NR1 mRNA expression. Consequently, we suggest that the important decrease in agonist binding to the NMDA receptor observed in this study in the caudate and putamen of PD brains, in the absence of any major change in NMDA NR1 mRNA levels might reflect the degeneration of pre-synaptic NMDA receptors located on nigro-striatal projections particularly affected by the disease. Small changes observed at a cellular level in subsets of neurons of both prefrontal cortex and striatum will be discussed at the light of neurochemical changes characteristics of PD.

Pharmacological characterization of thromboxane and prostanoid receptors in human isolated urinary bladder

1. Cumulative concentration-response curves (CRC) to prostaglandin E1 (PGE1), PGE2, PGD2 and PGF2alpha (0.01-30 microM) and to the thromboxane A2 (TXA2) receptor agonist U-46619 (0.01-30 microM) were constructed in human isolated detrusor muscle strips both in basal conditions and during electrical field stimulation. 2. All the agonists tested contracted the detrusor muscle. The rank order of agonist potency was: PGF2alpha > U-46619 > PGE2 whereas weak contractile responses were obtained with PGD2 and PGE1. Any of the agonists tested was able to induce a clear plateau of response even at 30 microM. 3. The selective TXA2 antagonist, GR 32191B (vapiprost), antagonized U-46619-induced contractions with an apparent pK(B) value of 8.27+/-0.12 (n = 4 for each antagonist concentration). GR 32191B (0.3 microM) did not antagonize the contractile responses to PGF2alpha and it was a non-surmountable antagonist of PGE2 (apparent pK(B) of 7.09+/-0.04; n = 5). The EP receptor antagonist AH 6809 at 10 microM shifted to the right the CRC to U-46619 (apparent pK(B) value of 5.88+/-0.04; n = 4). 4. Electrical field stimulation (20 Hz, 70 V, pulse width 0.1 ms, trains of 5 s every 60 s) elicited contractions fully sensitive to TTX (0.3 microM) and atropine (1 microM). U-46619 (0.01-3 microM) potentiated the twitch contraction in a dose-dependent manner and this effect was competitively antagonized by GR 32191B with an estimated pK(B) of 8.54+/-0.14 (n = 4 for each antagonist concentration). PGF2alpha in the range 0.01-10 microM (n = 7), but not PGE2 and PGE1 (n = 3 for each), also potentiated the twitch contraction of detrusor muscle strips (23.5+/-0.3% of KCl 100 mM-induced contraction) but this potentiation was unaffected by 0.3 microM GR 32191B (n = 5). 5. Cumulative additions of U-46619 (0.01-30 microM) were without effect on contractions induced by direct smooth muscle excitation (20 Hz, 40 V, 6 ms pulse width, trains of 2 s every 60 s, in the presence of TTX 1 microM; n = 3). Moreover, pretreatment of the tissue with 0.3 microM U-46619 did not potentiate the smooth muscle response to 7 microM bethanecol (n = 2). 6. We concluded that TXA2 can induce direct contraction of human isolated urinary bladder through the classical TXA2 receptor. Prostanoid receptors, fully activated by PGE2 and PGF2alpha are also present. All these receptors are probably located post-junctionally. The rank order of agonist potency and the fact that GR 32191B, but not AH6809, antagonized responses to PGE2 seem to indicate the presence of a new EP receptor subtype. Moreover, we suggest the presence of prejunctional TXA2 and FP receptors, potentiating acetylcholine release from cholinergic nerve terminals.

N-terminal splice variants of the NMDAR1 glutamate receptor subunit: differential expression in human and monkey brain

The distribution of the mRNA coding for the two N-terminal splice variants of the N-methyl-D-aspartate receptor 1 (NMDAR1) subunit of the glutamate NMDA receptor was studied on whole-hemisphere human and macaca fascicularis brain sections by in-situ hybridisation. Synthetic oligonucleotides directed against NMDAR1a and NMDAR1b variants showed a specific distribution that was similar in human and monkey brain, with the NMDAR1a isoform present in the majority of the NMDA receptors, and the NMDAR1b variant present at high levels only in the cortex and dentate gyrus of the hippocampus. The distribution of the mRNAs for the NMDAR1pan and NMDAR1a subunit reported in this study support previous findings in rodent brain, while the restricted distribution of the NMDAR1b variant found in human and monkey suggests some important differences in the composition of the NMDA receptor in rodents and primates.

Protective effect of GV150526A on the glutamate-induced changes in basal and electrically-stimulated cytosolic Ca++ in primary cultured cerebral cortical cells

Glutamate-induced changes in intracellular free Ca++ concentration ([Ca++]i) were recorded in resting and electrically-stimulated primary cultures of rat cerebral cortical cells, employing the Ca++ indicator Fura 2. A brief (10 min) exposure to glutamate led to a concentration-dependent basal [Ca++]i increase, measured 30 min after glutamate removal. In order to unmask more subtle modifications in [Ca++]i movements associated with neurosecretion, the glutamate effect was also studied in electrically-stimulated cells. The application of trains (10 s) of electrical pulses (intensity 30 mA, duration 1 ms) induced frequency-related Na+- and Ca++-dependent [Ca++]i transients. A 5 min treatment with 50 microM glutamate reduced to 48% the electrically-evoked [Ca++]i transients, evaluated 30 min after glutamate challenge. The neuroprotective effect of sodium 4,6-dichloro-3-[(E)-3-(N-phenyl)propenamide]indole-2-carboxylate (GV150526A), a new indole derivative with high affinity and selectivity for the glycine site of the NMDA receptor-channel complex, was compared with that of DL-2-amino-5-phosphonopentanoic acid (AP5), ifenprodil, 7-chlorokynurenic acid and 2,3-dihydroxy-6-nitro-7-sulfamoylbenzo(f)-quinoxaline (NBQX) on glutamate-induced [Ca++]i changes in resting and electrically-stimulated cells. In both experimental conditions, GV150526A showed to be the most potent compound. Moreover, GV150526A and 7-chlorokynurenic acid were 2-3 times more active in stimulated neurons than in resting neurons, indicating a major involvement of the glycine site in the protection of the cells kept in an active state.

[3H]MK-801 binding and the mRNA for the NMDAR1 subunit of the NMDA receptor are differentially distributed in human and rat forebrain

The distributions of [3H]MK-801 binding and the NMDA NR1 subunit mRNA were studied using receptor autoradiography and in-situ hybridization in rat and human brain whole-hemisphere coronal sections. Receptor protein detected by radioligand autoradiography and the mRNA for the key subunit of the receptor presented similar distributions in the forebrain, with a few areas showing an imbalance between the levels of mRNA and receptor protein. Human frontal cortex showed a relative abundance of NMDAR1 mRNA as compared to [3H]MK-801 binding. The same area in rat brain did not show any difference in the two distributions. In comparison, the rat claustrum presented a relative excess of NMDAR1 mRNA which was not detected in human sections. Human caudate nucleus exhibited relatively high levels of [3H]MK-801 binding that were unmatched in rat caudate. The hippocampi of either species presented similar levels of [3H]MK-801 binding and NMDAR1 mRNA, but when the two signals were measured in specific subfields of the hippocampal formation, the differential distribution of the two signals reflected the anatomy of hippocampal connections assuming a preferential dendritic distribution for MK-801 binding. Interestingly, rat and human hippocampi also showed some important species-dependent difference in the relative distribution of the receptor protein and mRNA. The data presented show an overall good correlation between the mRNA for the key subunit of the NMDA receptor and the functional receptor detected with radioligand binding and highlight the presence of local differences in their ratio. This may reflect different splicing of the mRNA for the NMDAR1 subunit in specific brain areas of rat and human. The species-dependent differences in the relative distribution of the mRNA for the key subunit of the NMDA receptor and that of a marker of functional receptors also highlights important differences in the NMDA function in rat and human brain.

Spontaneous preference for ethanol in naive rats is influenced by cholecystokinin A receptor antagonism

Naive adult male Wistar rats free to choose between water or 10% ethanol (v/v) spontaneously became water-preferring (WP) rats, as they drank mainly water (approximately 35 ml per day), or alcohol-drinking (ED) rats, as they also drank a significant amount of ethanol (approximately 14 ml per day). The selective CCKA receptor antagonist L-364,718 at doses selective for the CCKA receptor (5 micrograms/kg, IP) halved the consumption of alcohol of the ED rats without modifying their total liquid in-take. In contrast, the CCKB antagonists L-365,260 or GV150013 were without effect when used at doses selective for the CCKB receptor. These data indicate that the CCK system could be involved in the modulation of alcohol intake. In particular, they suggest that CCKA receptors could play a role in the ethanol preference.

Substituted indole-2-carboxylates as in vivo potent antagonists acting as the strychnine-insensitive glycine binding site

A series of indole-2-carboxylates bearing suitable chains at the C-3 position of the indole nucleus was synthesized and evaluated in terms of in vitro affinity using [3H]glycine binding assay and in vivo potency by inhibition of convulsions induced by N-methyl-D-aspartate (NMDA) in mice. 3-[2-[(Phenylamino)carbonyl]ethenyl]-4,6-dichloroindole-2-carboxyl ic acid (8) was an antagonist at the strychnine-insensitive glycine binding site (noncompetitive inhibition of the binding of [3H]TCP, pA2 = 8.1) displaying nanomolar affinity for the glycine binding site (pKi = 8.5), coupled with high glutamate receptor selectivity (> 1000-fold relative to the affinity at the NMDA, AMPA, and kainate binding sites). This indole derivative inhibited convulsions induced by NMDA in mice, when administered by both iv and po routes (ED50 = 0.06 and 6 mg/kg, respectively). The effect of the substituents on the terminal phenyl ring of the C-3 side chain was investigated. QSAR analysis suggested that the pKi value decreases with lipophilicity and steric bulk of substituents and increases with the electron donor resonance effect of the groups present in the para position of the terminal phenyl ring. According to these results the terminal phenyl ring of the C-3 side chain should lie in a nonhydrophobic pocket of limited size, refining the proposed pharmacophore model of the glycine binding site associated with the NMDA receptor.

Regionally different N-methyl-D-aspartate receptors distinguished by ligand binding and quantitative autoradiography of [3H]-CGP 39653 in rat brain

1. Binding of D,L-(E)-2-amino-4-[3H]-propyl-5-phosphono-3-pentenoic acid ([3H]-CGP 39653), a high affinity, selective antagonist at the glutamate site of the N-methyl-D-aspartate (NMDA) receptor, was investigated in rat brain by means of receptor binding and quantitative autoradiography techniques. 2. [3H]-CGP 39653 interacted with striatal and cerebellar membranes in a saturable manner and to a single binding site, with KD values of 15.5 nM and 10.0 nM and receptor binding densities (Bmax values) of 3.1 and 0.5 pmol mg-1 protein, respectively. These KD values were not significantly different from that previously reported in the cerebral cortex (10.7 nM). 3. Displacement analyses of [3H]-CGP 39653 in striatum and cerebellum, performed with L-glutamic acid, 3-((+/-)-2-carboxypiperazin-4-yl)propyl-1-phosphonic acid (CPP) and glycine showed a pharmacological profile similar to that reported in the cerebral cortex. L-Glutamic acid and CPP produced complete displacement of specific binding with Ki values not significantly different from the cerebral cortex. Glycine inhibited [3H]CGP 39653 binding with shallow, biphasic curves, characterized by a high and a low affinity component. Furthermore, glycine discriminated between these regions (P < 0.005, one-way ANOVA), since the apparent Ki of the high affinity component of the glycine inhibition curve (KiH) was significantly lower (Fisher's protected LSD) in the striatum than the cortex (33 nM and 104 nM, respectively). 4. Regional binding of [3H]-CGP 39653 to horizontal sections of rat brain revealed a heterogeneous distribution of binding sites, similar to that reported for other radiolabelled antagonists at the NMDA site (D-2-[3H]-amino-5-phosphonopentanoic acid ([3H]-D-AP5) and [3H]-CPP). High values of binding were detected in the hippocampal formation, cerebral cortex and thalamus, with low levels in striatum and cerebellum. 5. [3H]-CGP 39653 binding was inhibited by increasing concentrations of L-glutamic acid, CPP and glycine. L-Glutamic acid and CPP completely displaced specific binding in all regions tested, with similar IC50 values throughout. Similarly, glycine was able to inhibit the binding in all areas considered: 10 microM and 1 mM glycine reduced the binding to 80% and 65% of control (average between areas) respectively. The percentage of specific [3H]-CGP 39653 binding inhibited by 1 mM glycine varied among regions (P < 0.05, two-ways ANOVA). Multiple comparison, performed by Fisher's protected LSD method, showed that the inhibition was lower in striatum (72% of control), with respect to cortex (66% of control) and hippocampal formation (58% of control). 6. The inhibitory action of 10 microM glycine was reversed by 100 microM 7-chloro-kynurenic acid (7-CKA), a competitive antagonist of the glycine site of the NMDA receptor channel complex, in all areas tested. Moreover, reversal by 7-CKA was not the same in all regions (P < 0.05, two-ways ANOVA). In fact, in the presence of 10 microM glycine and 100 microM 7-KCA, specific [3H]-CGP 39653 binding in the striatum was 131% of control, which was significantly greater (Fisher's protected LSD) than binding in the hippocampus and the thalamus (104% and 112% of control, respectively). 7. These results demonstrate that [3H]-CGP 39653 binding can be inhibited by glycine in rat brain regions containing NMDA receptors; moreover, they suggest the existence of regionally distinct NMDA receptor subtypes with a different allosteric mechanism of [3H]-CGP 39653 binding modulation through the associated glycine site.

Co-agonism in drug-receptor interaction: illustrated by the NMDA receptors

The co-agonism between glutamate and glycine at the NMDA receptor raises uncertainty about the estimation of the values of dissociation constants for agonists and antagonists and of efficacy for agonists. In this article, Mauro Corsi, Paolo Fina and David Trist discuss how to analyse the interaction of the two agonists with the NMDA receptor by applying an operational receptor model. Data simulation indicates that co-agonism can affect the potency as well as the efficacy of agonists. Moreover, the interaction of antagonists with the NMDA receptor can also be affected, leading to altered estimation of the antagonist dissociation constants.

Coexpression with potassium channel subunits used to clone the Y2 receptor for neuropeptide Y

Xenopus oocytes were injected with RNAs for the two inward-rectifier potassium channel subunits Kir3.1 (GIRK1) and Kir3.4 (rcKATP or CIR) in addition to RNA from the neuroblastoma cell line KAN-TS. Potassium currents were evoked by neuropeptide Y in oocytes injected with polyadenylated RNA or with cRNA from pools of a neuroblastoma (KAN-TS) cDNA library, and progressive subdivision of responding pools yielded a single cDNA. The encoded protein contains 381 amino acids, has the seven hydrophobic domains characteristic of G protein-coupled receptors, and is 31% identical to the Y1 receptor: potassium currents were induced by neuropeptide Y (EC50=60pm) and Y2-selective analogues. Coexpression with potassium channel subunits will be a generally useful method for the cloning of G protein-coupled receptors.

Failure of the putative neuropeptide Y antagonists, benextramine and PYX-2, to inhibit Y2 receptors in rat isolated prostatic vas deferens

1. The pharmacological activity of neuropeptide Y (NPY) and some analogues in inhibiting the twitch contractions induced by electrical stimulation (single pulses at 25 V, 0.15 Hz, 1 ms) in the prostatic portion of the rat isolated vas deferens was investigated. The rank order of agonist potency was: PYY > NPY2-36 > NPY >> NPY13-36 >> NPY18-36 >> [Leu31,Pro34]NPY = hPP, which is consistent with the activation of a Y2 receptor. 2. The putative Y1 and Y2 antagonist, benextramine (BXT), incubated at 100 microM for 10 or 60 min, was ineffective against PYY-induced inhibition of the twitch response, suggesting that the prejunctional Y2 receptor in this tissue is different from the postjunctional one reported in the literature to be sensitive to BXT blockade. 3. The putative NPY antagonist, PYX-2, incubated at 1 microM for 20 min, was completely ineffective in antagonizing PYY-induced inhibition of twitches. 4. The twitch response was totally inhibited by suramin (100 microM) but was little affected by prazosin (1 microM). Furthermore, NPY was without effect on the dose-response curve to ATP in resting conditions. Taken together, these results suggest that in our paradigm, NPY inhibits the release of a purinergic neurotransmitter which mediates contraction of the prostatic portion of the rat vas deferens.

Simultaneous, selective detection of catecholaminergic and indolaminergic signals using cyclic voltammetry with treated micro-sensor

Selective and simultaneous voltammetric analysis of catechols and indoles in vivo and in vitro has until now been feasible only by means of 'slow' scanning methods (scan speed in tens of seconds) such as differential pulse (DPV) and differential normal pulse voltammetry in conjunction with electrically and/or chemically treated carbon-fiber micro-electrodes (mCFE). Faster electrochemical techniques, such as chronoamperometry and cyclic voltammetry (CV), allow more rapid (seconds or fractions of a second) and frequent measurements of these chemicals. However, these methods show poor sensitivity and selectivity in the presence of different electroactive compounds with similar oxidation potentials. In order to analyze whether the lack of sensitivity and selectivity of the fast voltammetric methods results from the rapidity of the measurement or from the use of untreated sensors, the methods of CV (scan speed: 1000 mV/s) and DPV (scan speed: 10 mV/s) have been applied with either untreated or electrically treated mCFE to analyze the in vitro oxidation potential and current values of DA and 5-HT. When associated with untreated mCFE, neither method was able to separate and selectively detect the two compounds dissolved together in an inert vehicle; the voltammogram recorded resulted in a single broad oxidation signal. In contrast, when these techniques were performed with electrically treated mCFE, oxidation signals for DA (peak A) and 5-HT (peak B) were monitored simultaneously at approximately + 65 mV and + 240 mV, with DPV respectively, and at + 120 mV and + 300 mV with CV, respectively. Additionally, CV with treated mCFE on anesthetized rats, simultaneously monitored two striatal signals at approximately + 100 mV and + 300 mV. The oxidation values (Em) and current levels (nA) of these peaks remained stable during control recordings. The current levels were selectively increased by peripheral injection of fluphenazine (DA antagonist) or of 5-hydroxytryptophan (precursor of serotonin). The chemical nature of these two peaks may therefore be considered catecholaminergic and indolaminergic, respectively. Hence, this report provides the first evidence for the feasibility of concomitant in vitro analysis of DA and 5-HT using a rapid scanning method such as CV. In addition, the values of current level (nA) obtained with CV-mCFE for DA and 5-HT are comparable to those monitored with DPV-mCFE, supporting the view that treatment of the sensor is a key point for increasing the selectivity and the sensitivity of these voltammetric techniques. The feasibility of using CV with electrically treated mCFE for fast in vivo analysis of catechol and indole activities is also demonstrated.

Discrimination by benextramine between the NPY-Y1 receptor subtypes present in rabbit isolated vas deferens and saphenous vein

1. In order to characterize the neuropeptide Y (NPY) Y1 receptors known to be present in rabbit isolated vas deferens and saphenous vein, the pharmacological activity of the selective NPY Y1 receptor agonists, [Leu31,Pro34] NPY and various other peptide agonists, together with the putative NPY antagonist, benextramine, were compared in the two tissues. 2. In rabbit isolated saphenous vein, cumulative dose-response curves to various NPY agonists were obtained. All the peptides tested caused contractions which developed quite slowly. The rank order of potency obtained was: PYY > NPY > [Leu31,Pro34] NPY = NPY2-36 > hPP >> NPY13-36 = NPY18-36. Incubation with benextramine (BXT) at 100 microM for 30 min irreversibly abolished the contractile response to [Leu31,Pro34] NPY but was ineffective against NPY18-36-induced contractions. 3. Cumulative dose-response curves to [Leu31,Pro34] NPY were performed in the same preparation before and after incubation with 100 microM BXT for 20 min in order to inactivate NPY Y1 receptors. The pKA (-logKA) estimation for [Leu31,Pro34] NPY was 7.60 +/- 0.30 using the operational model and 7.20 +/- 0.33 using the null method; the difference between the two methods was not statistically significant (P = 0.36). 4. Prostatic segments of rabbit vas deferens were electrically stimulated with single pulses. Immediately after stabilization of the contractile response, a cumulative dose-response curve to various NPY agonists was obtained in each tissue. The rank order of potency for twitch inhibition was: PYY> [Leu31,Pro34]NPY > NPY > hPP>NPY2- 36 >>NPY13-36>> NPY 18-36 which indicates the presence of a prejunctional NPY Y1 receptor. BXT at 100 microM incubated for 10 or 60 min did not antagonize the response to[Leu31,Pro34] NPY.5. We conclude that rabbit isolated saphenous vein contains a population of post-junctional NPY Y1 receptors irreversibly blocked by BXT, as well as a population of post-junctional NPY Y2 receptors,which are insensitive to BXT. In contrast, the rabbit isolated vas deferens express a pre-junctional NPYY1 receptor subtype which is not blocked by BXT. Tetramine disulphides such as BXT could be useful tools in classifying NPY receptors.

Carbon fibre micro-electrodes for concomitant in vivo electrophysiological and voltammetric measurements: no reciprocal influences

Differential pulse voltammetry and more recently cyclic voltammetry have been successfully used to monitor basal levels of endogenous chemicals by means of treated carbon fibre microbiosensors inserted in specific brain regions. In this study, feasibility of concomitant in vivo recordings of stable electrophysiological signals and basal ascorbate, catecholaminergic and indolaminergic voltammetric peaks at the same cerebral site by means of a single electrically treated carbon fibre micro electrode (microbiosensor) is presented. The results indicate that these two independent techniques can be combined in vivo at a single electrode, and that voltammetric measurements of unstimulated levels of extracellular compounds do not alter concomitant basal cell firing for a period long enough (more than 6 h) to allow pharmacological manipulations.

Recent developments in the use of calcium antagonists in myocardial protection

For more than two decades calcium antagonists (CEBs) have been widely used for the treatment of myocardial ischaemia (angina pectoris). Amongst the classes of CEBs, the 1,4-dihydropyridines (DHPs), like nifedipine, have been used for this indication because of their haemodynamic and electrophysiological properties. The ability of nifedipine to reduce afterload and to induce coronary vasodilation, as well as to increase collateral blood supply, has supported its extensive use in the treatment of angina pectoris. However, its short duration of action also provokes reflex tachycardia, which often limits its beneficial effect and may actually precipitate pain. The newer DHPs, such as amlodipine and lacidipine, are endowed with slow onset and long duration of vasodilatory activity; they are able to reduce coronary resistance with little or no effect on heart rate. The more lipophilic DHP, lacidipine, shows also a pronounced vascular protection, on both smooth muscle and endothelium, and is able to reduce the formation of atheroma plaque in animal models at therapeutic doses. This protective activity might be explained in terms of both the effective CEB activity of lacidipine together with antioxidant properties that this DHP has shown.

Evidence for the presence of both pre- and postjunctional P2-purinoceptor subtypes in human isolated urinary bladder

1. In order to characterize P2-purinoceptor(s) in human urinary bladder the contractile effects of ATP and its slowly-hydrolyzable analogues alpha, beta-methylene ATP (alpha, beta-MeATP) and beta, gamma-methylene ATP (beta, gamma-MeATP) were investigated on human detrusor strips taken from patients undergoing cystectomy for bladder carcinoma. 2. Serial concentration-response curves (SCRC) for ATP, alpha, beta-MeATP and beta, gamma-MeATP were constructed with an interval of 25 min between two successive doses to avoid tachyphylaxis. ATP (10 microM-10 mM) induced a phasic contraction, which was very rapid in onset. The dose-response curve to ATP appeared not to be monophasic: at the lower concentrations (10-300 microM) the curve was shallow, whilst at high concentrations (1-10 mM) the curve was steeper. The magnitude of the response obtained at the highest concentration tested (10 mM) was only 21.1 +/- 2.8% (mean +/- s.e. mean; n = 4) of the KCl (100 mM)-induced contraction. 3. alpha, beta-MeATP (0.3 microM-1 mM) and beta, gamma-MeATP (10 microM-1 mM) elicited a phasic contraction with a time course similar to that exhibited by ATP. The magnitude of the response obtained at the highest concentration tested (1 mM) was 70.3 +/- 6.3% for alpha, beta-MeATP (n = 10) and 27.9 +/- 4.5% for beta, gamma-MeATP (n = 8) of KCl (100 mM)-induced contraction. The rank order of potency was alpha, beta-MeATP > beta, gamma-MeATP > ATP. A plateau of response could not be achieved by any of these agonists. 4. The P2-purinoceptor antagonist, suramin (10-300 microM), dose-dependently antagonized only the lower part of alpha,beta-MeATP dose-response curve. Data were analysed in terms of dose-ratio estimated at two levels of response (10% and 35% of KC1 100 mM-induced contraction). At 10% of KCl response the Schild plot slope was 0.98 and the estimated pKB was 5.85, whereas using the dose-ratio at the 35% level of the KCl response, the Schild plot was not linear suggesting an interaction of alpha,beta-MeATP with a heterogeneous receptor population.5. The putative P2-purinoceptor antagonist, Coomassie Brilliant Blue G (CB-G) at 0.3 and 1 l micro M(n = 5), shifted to the left the alpha,beta-MeATP SCRC. The response at the highest concentration of agonist was potentiated, being equal to 78.8 +/- 11.7% of the KCl (100 mM) response (n = 5). CB-G at 0.3 microM also shifted to the left the beta,upsilon-MeATP SCRC and significantly potentiated the response at 1 mM up to 46.3 +/- 5.6% of KCl 100 mM response (n = 4).6. Pretreatment with terodotoxin (TTX) at 1 microM shifted to the left the alpha,beta-MeATP SCRC but the response to the highest concentration of the agonist was not potentiated, being 73.6 +/- 9.9% of the KCl(100 mM) response (n = 5). TTX (1 micro M) shifted to the left the beta,upsilon-MeATP SCRC and significantly potentiated the response at 1 mM (61.6 +/- 3.1% of KCl response; n = 4).7. The NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME) at 100 micro M did not modify the SCRC to either alpha, beta or beta,upsilon-MeATP.8. We conclude that in human detrusor muscle there is a heterogeneity of purinoceptors. The complex antagonism exhibited by suramin suggests the presence not only of Ph-purinoceptors but also of another contractile P2-purinoceptor subtype insensitive to suramin. Moreover, the activity of CB-G and TTX seems to support the existence of a prejunctional P2-purinoceptor subtype inducing the release of one or more inhibitor neurotransmitters.

Melatonin, a hormone monitorable in vivo by voltammetry?

Melatonin, an indoleamine hormone synthesized in the pinealocytes, is electroactive at the surface of pre-treated carbon fibre microelectrodes (mCFE) in vitro when using differential-pulse voltammetry (DPV), at the specific oxidation potential of approximately +570 mV. In vivo DPV experiments have then been performed in melatonergic regions such as the pineal gland or the suprachiasmatic nucleus (SCH) of anaesthetized adult male rats. These experiments indicated the feasibility of simultaneous measurements of the indolaminergic peak 3, which occurred at approximately +280 mV, due mainly to the oxidation of extracellular 5-hydroxyindoleacetic acid (5HIAA), and a signal at approximately +580 mV which we called peak M. Pharmacological in vivo experiments performed in anaesthetized rats prepared for DPV analysis with the mCFE implanted into the pineal gland or the SCH indicated that intravenous or intra-cerebral injections of exogenous melatonin (5 mg kg-1 or 2 micrograms microliter-1, n = 3, respectively) were followed by a selective and significant increase of in vivo peak M. Other in vivo experiments with anaesthetized rats prepared for DPV analysis with the mCFE into the SCH showed that tryptophan [TRY, 30 mg kg-1 intravenous (i.v.), n = 3] and n-acetyl serotonin (nA-5HT, 5 mg kg-1 i.v., n = 3), both precursors of melatonin, were responsible for a transient but significant increase in the size of peak M (approximately 320% or 126% of control levels within 10 min or 20 min, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)

A further analysis of the contraction induced by activation of cholecystokinin A receptors in guinea pig isolated ileum longitudinal muscle-myenteric plexus

The activity of a selective cholecystokinin (CCK)-A receptor agonist, N-acetyl derivative of A71623 (Ac-Trp-Lys(epsilon-N-[2-methylphenylamino-carbonyl]) -Asp-(NMe)Phe-NH2) was investigated in the guinea pig isolated ileum longitudinal muscle myenteric plexus. NAA caused both a phasic and tonic contraction at all concentrations tested (1-1000 nM). The selective CCK-A antagonist L-364,718 (Devazepide) antagonized both types of contraction with a pKB of 10.10 and 9.95, respectively. The CCK-B selective antagonist L-365,260 ((3R(+)-2,3-dihydro-1-methyl-2-oxo-5-phenyl-1H-1, 4-benzodiazepine-3yl)-N-(3-methylphenyl)-urea) was inactive up to a concentration of 30 nM. Atropine at 300 nM and 1000 nM reduced the maximal response of NAA by only 17% and 50%, respectively. The selective neurokinin (NK)-1 antagonists GR 82334 ([D-pro9[Spiro-gamma-Lactam] Leu10, Trp11]-Phys (1-11)9) at 300 and 1000 nM and (+-) CP-96,345 [(2S, 3S)-cis- 2-(diphenylmethyl)-N- [(2-methoxyphenyl)-methyl] -1-azabici-clo [2.2.2]octan-3-amine] at 10 nM were inactive or partially active. When atropine and GR 82334 or (+/-) CP-96,345 were combined, they produced a dose-dependent synergistic inhibition of both phasic and tonic contractions induced by NAA. The selective NK-3 receptor agonist senktide induced both phasic and tonic contractions that were blocked by tetrodotoxin. In the presence of atropine and GR 82334, both 300 nM, a synergistic depression of the response to senktide similar to that observed for the agonist NAA was disclosed.(ABSTRACT TRUNCATED AT 250 WORDS)

Competitive antagonism by phenylglycine derivatives at type I metabotropic glutamate receptors

The metabotropic glutamate receptors (mGluRs) form a family of G-protein-coupled receptors which consists of at least seven members termed mGluR1-mGluR7. These members are classified into subfamilies according to their sequence similarities, signal transduction mechanisms and agonist selectivities. mGluR1 and mGluR5 are coupled to the phosphoinositide hydrolysis/Ca2+ signal transduction and efficiently respond to quisqualate. In this study, we have stably expressed mGluR1 in Chinese hamster ovary cells on which the activation of the phosphoinositide signal transduction pathway was evaluated by means of two methods and their degree of correspondence was analyzed. These two methods involve the Li(+)-dependent accumulation of [3H]inositol-labeled inositol phosphates or the [3H]cytidine-labeled phospholiponucleotide cytidine diphospho (CDP)- diacylglycerol (DAG). The correlation between the two measures was found to be generally uniform for the different agonists evaluated. However, the levels of CDP-DAG were found to be consistently higher. Furthermore, quisqualate showed a differential activity on the two methods behaving as a partial agonist and as a full agonist on the inositol phosphate and the CDP-DAG responses, respectively. On the same cells the activity of a series of carboxyphenylglycines recently described as possible new tools for investigating the role of mGluRs has been evaluated. Three phenylglycine derivatives were tested and found to be competitive antagonists at this mGluR subtype. They inhibited both the phosphoinositide signal transduction pathway and the release of intracellular Ca2+ induced by quisqualate the most potent agonist at mGluR1. The pharmacological nature of these compounds and their relative potencies in antagonizing mGluR1 activation are described.

ADP beta S induces contraction of the human isolated urinary bladder through a purinoceptor subtype different from P2X and P2Y

The classification of purinergic receptors is seriously hampered by the lack of specific antagonists. Furthermore, there is increasing evidence that other purinoceptor subtypes may exist that are different than the relatively well characterized P2X, P2Y, P2Z and P2T. Human isolated urinary bladder was reported to contract in response to challenge with alpha,beta-methylene adenosine 5'-triphosphate (alpha,beta-MeATP) and adenosine 5'-triphosphate (ATP), probably through activation of P2X purinoceptors. In this work, we tried to classify the purinoceptors subtypes present in human detrusor muscle by using adenosine 5'-[beta-thio]diphosphate (ADP beta S), alpha,beta-MeATP, 2-methylthio adenosine 5'-triphosphate (2-MeSATP), ATP and uridine 5'-triphosphate (UTP). We also examined the activity of two putative P2 antagonists (p-chloromercuribenzensulfonic acid [PCMBS] and Reactive Blue 2 [RB-2]). The agonist rank order of potency was alpha,beta-MeATP = ADP beta S > 2-MeSATP > ATP >> UTP. Cumulative responses to alpha,beta-MeATP induced a very rapid desensitization, but responses to alpha,beta-MeATP and ADP beta S, both at 100 microM, were additive. PCMBS antagonized ADP beta S-induced contractions with a pKB of 6.49, but it was inactive against alpha,beta-MeATP. The putative P2Y antagonist RB-2 had no effect against ADP beta S-induced contraction. We conclude that human detrusor muscle contains two contractile purinoceptor subtypes. One is activated by alpha,beta-MeATP and is probably the P2X subtype; the other is activated by ADP beta S and appears to be different from those accepted by the current classification. The similarity between our results and those obtained by other investigators is discussed.

Quantification of the calcium antagonism of lacidipine by kinetic analysis

The calcium antagonist activity of the long-acting 1,4-dihydropyridine (DHP) lacidipine has been analyzed in rabbit basilar artery using a washout design in constant depolarizing conditions. From the kinetics of the loss of effect with washing, it was possible to fit a model that included the rate constant for dissociation of the DHP from the membrane (k-1) together with its affinity for the voltage-activated channel (K2). The k-1 values for lacidipine and two other DHPs (amlodipine and nifedipine) have been calculated as 0.0098, 0.0182 and 0.166 min-1, respectively. Assuming that the externally applied concentration of the DHP reflected the concentration in the membrane, the apparent pK2 values of 9.80, 9.0 and 9.25 were calculated for the three calcium antagonists. These values are in good agreement with those estimated in a previous study. When the partition of lacidipine into the membrane was taken into consideration, its apparent pK2 was reduced to 4.85. Thus, the study reinforces the concept that the high membrane partition of lacidipine contributes not only to its duration of action but also to its very high potency.

Evidence for purinergic neurotransmission in human urinary bladder affected by interstitial cystitis

Detrusor specimens were obtained from 5 patients affected by interstitial cystitis (IC) and 5 patients with bladder carcinoma (controls). Muscle strips were prepared for in vitro pharmacological studies. In all detrusor strips taken from IC patients, an important portion of the electrically-induced contraction was atropine-resistant. In contrast, atropine-resistance was never observed in control detrusors. H1 and H2 antagonists did not affect noncholinergic contractile response which, conversely, was abolished following desensitization to alpha, beta methylene ATP (APCPP). Detrusor muscle from patients affected by IC exhibited an increase in sensitivity to APCPP and a decrease in sensitivity to acetylcholine with respect to control detrusor. Taken together these results are consistent with the presence of a purinergic neurotransmission in parasympathetic nerve terminals of the urinary bladder affected by IC, probably as a consequence of alterations in the innervation and/or electrical coupling between smooth muscle cells. The sensitivity of IC detrusor muscle to histamine was much lower than that of control detrusor, suggesting a desensitization of histamine receptors present in the bladder wall of IC patients.

Further studies on the effects of selective neurokinin agonists upon the activation of micturition reflex in rats. Evidence for a dual NK-1 receptor mediated excitatory and inhibitory activity

The ability of SP and some selective agonists for NK-1, NK-2 and NK-3 receptor subtypes to interfere with the micturition reflex after intra-arterial (i.a.) or intracerebroventricular (i.c.v.) administration was investigated in the urethane anaesthetized rat. When administered i.a. SP, the selective NK-1 agonist GR 73632 and the selective NK-2 agonists GR 64349 were equipotent to activate micturition reflex, both the tonic or rhythmic bladder contractions. GR 73632 but not GR 64349-induced activation of micturition reflex was antagonized in a dose-dependent manner by the selective NK-1 antagonist GR 82334. After i.c.v. administration SP, GR 73632 and the selective NK-1 agonist [Sar9,Met(0(2))11]-SP but not GR 64349 inhibited saline-induced activation of rhythmic bladder contractions; the order of potency was GR 73632 > [Sar9,Met(0(2))11]SP >> SP. Also the inhibitory effect of GR 73632 was dose-dependently affected by GR 82334. In the two models the selective NK-3 agonist senktide both after i.a. or i.c.v. administration induced neither excitatory or inhibitory activity. These findings suggest that neurokinins activate at the peripheral level the micturition reflex by an interaction at NK-1 and NK-2 receptor subtypes. In addition, NK-1 receptors appear to modulate, at the central level, the inhibition of the micturition reflex.

The hemodynamic effects of lacidipine in anesthetized dogs: comparison with nitrendipine, amlodipine, verapamil, and diltiazem

The hemodynamic effects of lacidipine in anesthetized, open-chest dogs were compared with those of nitrendipine, amlodipine, verapamil and diltiazem. Lacidipine administered intravenously induced dose-related, long-lasting reductions in systemic and coronary vascular resistance with corresponding increases in aortic flow and coronary blood flow. The hypotensive effect (ED25 for mean blood pressure reduction = 0.006 mg/kg) was still significant 120 min after administration with all doses tested. Nitrendipine was equipotent with lacidipine in reducing the mean blood pressure (ED25 = 0.005 mg/kg), but its effect was shorter acting (significant effect at 120 min only with the highest dose tested). Amlodipine caused a marked and long-lasting hypotension though at higher doses than lacidipine (ED25 = 0.50 mg/kg). Short-lasting hypotensive responses were also detected with verapamil (ED25 = 0.1 mg/kg) and diltiazem (ED25 = 0.12 mg/kg). A reflex increase in heart rate was observed with lacidipine, nitrendipine, and amlodipine, whereas verapamil and diltiazem showed a dose-related bradycardia. No effect on AV conduction was observed with lacidipine and nitrendipine, whereas amlodipine, verapamil, and diltiazem produced second- to third-degree AV block at the highest doses tested. Lacidipine and nitrendipine caused a reflex increase in contractile index at all doses, whereas amlodipine was more similar to verapamil since a marked decrease in contractile index was detected at the highest dose. Diltiazem was practically devoid of negative inotropic effect.

The antagonism by BW A868C of PGD2 and BW245C activation of human platelet adenylate cyclase

1. In glycerol-lysed human platelets, prostaglandin D2 (PGD2) and the hydantoin BW245C both activate adenylate cyclase in a biphasic manner. These activations are qualitatively different from those of carbacyclin, iloprost and prostaglandin E2 (PGE2) whose E/[A] curves can be adequately described by rectangular hyperbolae. 2. Prostaglandin E1 (PGE1) had E/[A] curves of slope significantly lower than that expected for a rectangular hyperbolae. 2. Prostaglandin E1 (PGE1) had E/[A] curves of slope significantly lower than that expected for a rectangular hyperbola. 3. The selective PGD2 antagonist BW A868C shifts the first phase of the PGD2 and BW245C E/[A] curves but has no effect on the second phase. 4. Applying a two-receptor model enables a pKB to be derived for BW A868C of 9.11. 5. BW A868C has no effect on carbacyclin, iloprost, prostacyclin, PGE1 and PGE2 at a concentration 1,000 fold that of its KB against PGD2 and BW245C. 6. These results indicate that PGD2 and BW245C are capable of activating adenylate cyclase in human platelets through the DP-receptor and by another mechanism as yet uncharacterized.