G-protein activation revealed by [35S]-GTPγS binding assay is involved on the antidepressant-like effect of Hyperi cum caprifoliatum and Hypericum polyanthemumcyclohexane extracts

AbstractPrevious studies by us demonstrated the antidepressant-like and antinociceptive effects of lipophilic extracts and dimeric acyl-phloroglucinols from species of the genus Hypericum native to Southern Brazil. Uliginosin B and HC1 (an enriched phloroglucinol fraction from Hypericum caprifoliatum) are able to inhibit monoamine synaptosomal uptake without binding to the monoaminergic sites on neuronal transporters, unlike classical antidepressants. The current study aimed at investigating the action of H. caprifoliatum Cham. & Schltdl. and Hypericum polyanthemum Klotzsch ex Reichardt, Hypericaceae, cyclohexane extracts and their main component, HC1 and uliginosin B, on G protein coupled receptors by using the [35S]-guanosine-5′-O-(3-thio)triphosphate ([35S]-GTPγS) binding assay, which reveals the G protein activity. The antidepressant-like effect of acute (one or three treatments within 24 h) and repeated (five days with and without a three day wash-out) treatments with the cyclohexane extracts was evaluated using the rat forced swimming test. The [35S]-GTPγS binding to monoamines and opioid receptors stimulated by agonists was performed ex vivo in brain membranes of rats acutely or repeatedly treated with the cyclohexane extracts. The effect of HC1 and Uliginosin B on [35S]-GTPγS binding assay was performed by direct incubation with brain membranes in the absence of agonists. Their antidepressant-like effect was evaluated through the mice forced swimming test. The extracts, HC1 and Uliginosin B showed antidepressant-like effect in the forced swimming test. The acute treatments with extracts increased the [35S]-GTPγS binding stimulated by the monoamines, while after five days of treatment the [35S]-GTPγS binding was reduced even after three day wash-out. These effects are not due to HC1 or Uliginosin B interaction with the receptors, since direct incubation with these phloroglucinols did not affect [35S]-GTPγS binding to membranes. Our findings indicate that H. caprifoliatum and H. polyanthemumextracts bring about adaptive changes in monoamine receptors, which reinforces their antidepressant-like profile.

Differential involvement of anxiety and novelty preference levels on oral ethanol consumption in rats.

RATIONALE: Drug addiction is defined as a recurring cycle of intoxication, abstinence and relapse. The behavioural trait of novelty seeking is frequently observed in alcohol abusers. Moreover, converging evidence indicates that anxious individuals are also predisposed to alcohol abuse. OBJECTIVES: We have analyzed the respective implication of those two behavioural factors on vulnerability to ethanol intake on rats in situations designed to reflect drug intoxication and relapse phases in humans. METHODS: In a general population of Wistar rats, animals were tested in both the light/dark box and the novelty preference tests. Ethanol consumption was measured in a two-bottle free-choice procedure across three successive procedures. Animals were first exposed to increasing concentrations of ethanol (2, 4, 6, 8, 10, 12 % for 8 days at each concentration). Then, the concentration of the solution was diminished from 12 to 6 %. Finally, all rats were re-exposed to 6 % ethanol after 12 days of ethanol deprivation. RESULTS: Novelty preference predicted the amount of ethanol consumed across all phases. In contrast, anxiety was associated with a quicker recovery of ethanol consumption after the concentration drop and a greater increase in ethanol consumption after deprivation. CONCLUSIONS: Novelty seeking and anxiety are both but differentially implicated in predisposition to ethanol abuse. Whereas novelty seeking is related to the amount of ethanol consumed, anxiety is associated to higher ethanol consumption when ethanol concentration is decreased or after ethanol deprivation.

[Cannabis in France, new insights]. / La situation actuelle du cannabis en France.

France holds the record for cannabis use in Europe, especially among adolescents. This drug of abuse is thus mainly used during a very sensitive period of brain development, education, vehicle driving and development of life projects. In addition, synthetic derivatives of tetrahydrocannabinol (THC), which are more noxious than cannabis itself are now appearing on the market. Traficking and cultivation for personnal use have intensified; products proposed for sale are richer in THC; and some methods of consumption (e-cigarettes, vaporizers, water pipes) increase the supply of THC to the lungs and thence to the body and brain. It is in this context that attempts are being made to legalize this drug of abuse. Other attempts are made to disguise it as a medication. Meanwhile, the list of its psychic as well as physical damages grows longer, with some very severe cases of major injuries. This evolution takes place in spite of numerous warnings expressed by the French Academy of Medicine. Subsequently, it is prompted to carefully and vigorously denounce these events. This will be the aim of this thematic session.

[Neurobiology of endocannabinoids and central effects of tetrahydrocannabinol contained in indian hemp]. / Neurobiologie des endocannabinoïdes-- mise en relation avec les effets du tétrahydrocannabinol du chanvre indien.

Tetrahydrocannabinol, the main psychotropic component of Cannabis indica, is an addictive drug with multiple effects including both peripheral and central damages. All these effects are due to interference with endocannabinoidergic transmission. This endocannabinoid system subtly regulates many physiologicalfunctions. This regulation involves various ligands derived from arachidonic acid (anandamide, di-arachidonoylglycerol, virodhamin, noladin ether, N arachidonoyl dopamine, etc.) which stimulate two main types of receptor CB1 in the central nervous system and CB2 in the periphery. CB1 receptors are very numerous and ubiquitous in the brain. They influence various important functions (awakening, attention, delirium, hallucinations, memory, cognition, anxiety, humor stability, motor coordination, brain maturation, etc.). Far from mimicking endocannabinoids, THC caricatures their effects. It affects all brain structures, simultaneously, intensely and durably, inducing down-regulation of CB1 receptors and thereby reducing the effects of their physiological ligands. On account of its exceptional lipophilia, THC accumulates for days and even weeks in the brain. It is not a soft drug but rather a slow drug: its abuse induces long-lasting modifications and deterioration of brain function, potentially leading to various mental and psychiatric disorders.

Dopa-decarboxylase gene polymorphisms affect the motor response to L-dopa in Parkinson's disease.

BACKGROUND: In Parkinson's disease (PD), the response to L-dopa is highly variable and unpredictable. The major pathway for dopamine synthesis from L-dopa is decarboxylation by aromatic L-amino acid decarboxylase (AAAD, encoded by the DDC gene). OBJECTIVE: To determine the motor response to L-dopa in PD patients as a function of the DDC gene promoter polymorphisms (rs921451 T > C polymorphism (DDC(T/C)) and rs3837091 AGAG del (DDC(AGAG/-))). METHODS: Thirty-three Caucasian PD patients underwent an acute l-dopa challenge together with the peripheral AAAD inhibitor benserazide and were genotyped for rs921451 and rs3837091. The primary efficacy criterion was the motor response to L-dopa, as estimated by the area under the curve for the change in the Unified Parkinson's Disease Rating Scale part III (UPDRS) score relative to baseline (AUCΔUPDRS) in the 4 h following L-dopa administration. Secondary endpoints were pharmacokinetic parameters for plasma levels of L-dopa and dopamine. Investigators and patients were blinded to genotypes data throughout the study. RESULTS: When adjusted for the L-dopa dose, the AUCΔUPDRS was significantly lower in DDC(CC/CT) patients (n = 14) than in DDC(TT) patients (n = 19) and significantly lower in DDC(-/- or AGAG/-) patients (n = 8) than in DDC(AGAG/AGAG) patients (n = 25). There were no significant intergroup differences in plasma pharmacokinetic parameters for L-dopa and dopamine. DISCUSSION: The rs921451 and rs3837091 polymorphisms of the DDC gene promoter influence the motor response to L-dopa but do not significantly change peripheral pharmacokinetic parameters for L-dopa and dopamine. Our results suggest that DDC may be a genetic modifier of the l-dopa response in Parkinson's disease.

Acute and subchronic treatments with selective serotonin reuptake inhibitors increase Nociceptin/Orphanin FQ (NOP) receptor density in the rat dorsal raphe nucleus; interactions between nociceptin/NOP system and serotonin.

Nociceptin/Orphanin FQ is the endogenous ligand of NOP receptor, formerly referred to as the Opioid Receptor-Like 1 receptor. We have previously shown that NOP receptors were located on serotonergic neurons in the rat dorsal raphe nucleus, suggesting possible direct interactions between nociceptin and serotonin in this region, which is a target for antidepressant action. In the present study, we investigated further the link between Selective Serotonin Reuptake Inhibitor (SSRI) antidepressant treatments and the nociceptin/NOP receptor system. Intraperitoneal administration of the SSRI citalopram induced an increase in NOP-receptor density, measured by autoradiographic [(3)H] nociceptin binding, in the rat dorsal raphe nucleus, from the first to the 21st day of treatment. This effect was also observed with other SSRIs (sertraline, fluoxetine), but not with two tricyclic antidepressants (imipramine, clomipramine) and was abolished by pre-treatment with para-chlorophenylalanine, an inhibitor of serotonin synthesis. Using microdialysis experiments, we demonstrated that NOP-receptor activation by infusion of nociceptin 10(-6) M or 10(-5) M increased the level of extracellular serotonin in the dorsal raphe nucleus. This effect was abolished by co-infusion of the NOP-receptor antagonist UFP 101. These results confirm the existence of reciprocal interactions between serotonin and nociceptin/NOP transmissions in the dorsal raphe nucleus.

Rational design of a low molecular weight, stable, potent, and long-lasting GPR103 aza-ß3-pseudopeptide agonist.

26RFa, a novel RFamide neuropeptide, is the endogenous ligand of the former orphan receptor GPR103. Intracerebroventricular injection of 26RFa and its C-terminal heptapeptide, 26RFa((20-26)), stimulates food intake in rodents. To develop potent, stable ligands of GPR103 with low molecular weight, we have designed a series of aza-ß(3)-containing 26RFa((20-26)) analogues for their propensity to establish intramolecular hydrogen bonds, and we have evaluated their ability to increase [Ca(2+)](i) in GPR103-transfected cells. We have identified a compound, [Cmpi(21),aza-ß(3)-Hht(23)]26RFa((21-26)), which was 8-fold more potent than 26RFa((20-26)) in mobilizing [Ca(2+)](i). This pseudopeptide was more stable in serum than 26RFa((20-26)) and exerted a longer lasting orexigenic effect in mice. This study constitutes an important step toward the development of 26RFa analogues that could prove useful for the treatment of feeding disorders.

Influence of corticostriatal δ-opioid receptors on abnormal involuntary movements induced by L-DOPA in hemiparkinsonian rats.

Chronic L-3,4-dihydroxyphenylalanine (L-DOPA) treatment of Parkinson's disease induces in time numerous side effects, such as abnormal involuntary movements called L-DOPA-induced dyskinesias (LIDs). An involvement of glutamate transmission, dopamine transmission and opioid transmission in striatal output pathways has been hypothesized for the induction of LIDs. Interestingly, our previous experiments indicated that some striatal δ-opioid receptors are located on terminals of glutamatergic corticostriatal neurons and that stimulation of these receptors modulates the release of glutamate and dopamine. The present study was performed to test the involvement of δ-opioid receptors, and more precisely of those located on corticostriatal neurons, in abnormal involuntary movements induced by L-DOPA in hemiparkinsonian rats. The effects of a selective agonist, [D-Pen(2), D-Pen(5)]-enkephalin (DPDPE) and a selective antagonist (naltrindole) of δ-opioid receptors on LIDs were investigated in animals submitted or not to a corticostriatal deafferentation. Our results indicate that DPDPE and naltrindole respectively enhanced and reduced LIDs in animals in which the ipsilateral cortex was preserved intact. However, the lesion of the ipsilateral cortex prevented the stimulant effect of DPDPE on LIDs. The [(3)H]-DPDPE binding to striatal membranes prepared from the whole striatum was also studied. A significant increase in density of δ-opioid receptors was found in the striatum of dyskinetic animals as compared to non-dyskinetic animals but this difference was abolished by the corticostriatal deafferentation. These results indicate that δ-opioid transmission modulates the expression of LIDs in rodents and suggest that the δ-opioid receptors involved in this effect are located on terminals of corticostriatal neurons.

Uliginosin B, a phloroglucinol derivative from Hypericum polyanthemum: a promising new molecular pattern for the development of antidepressant drugs.

In this study we have demonstrated that cyclohexane extract of Hypericum polyanthemum (POL) and its main phloroglucinol derivative uliginosin B (ULI) present antidepressant-like activity in rodent forced swimming test (FST). The involvement of monoaminergic neurotransmission on the antidepressant-like activity of ULI was evaluated in vivo and in vitro. POL 90 mg/kg (p.o.) and ULI 10 mg/kg (p.o.) reduced the immobility time in the mice FST without altering locomotion activity in the open-field test. The combination of sub-effective doses of POL (45 mg/kg, p.o.) and ULI (5 mg/kg, p.o.) with sub-effective doses of imipramine (10 mg/kg, p.o.), bupropion (3 mg/kg, p.o.) and fluoxetine (15 mg/kg, p.o.) induced a significant reduction on immobility time in FST. The pretreatment with SCH 23390 (15 µg/kg, s.c., dopamine D1 receptor antagonist), sulpiride (50 mg/kg, i.p., dopamine D2 receptor antagonist), prazosin (1mg/kg, i.p., α1-adrenoceptor antagonist), yohimbine (1mg/kg, i.p., α2-adrenoceptor antagonist) and pCPA (100 mg/kg/day, i.p., p-chlorophenilalanine methyl ester, inhibitor of serotonin synthesis, for four consecutive days) before ULI administration (10 mg/kg, p.o.) significantly prevented the anti-immobility effect in FST. ULI was able to inhibit synaptosomal uptake of dopamine (IC50 = 90 ± 38 nM), serotonin (IC50 = 252 ± 13 nM) and noradrenaline (280 ± 48 nM), but it did not bind to any of the monoamine transporters. These data firstly demonstrated the antidepressant-like effect of POL and ULI, which depends on the activation of the monoaminergic neurotransmission in a different manner from the most antidepressants.

Effect of potent endomorphin degradation blockers on analgesic and antidepressant-like responses in mice.

The biological effects of endomorphins (EMs) are short-lasting due to their rapid degradation by endogenous enzymes. Competing enzymatic degradation is an approach to prolong EM bioavailability. In the present study, a series of tetra- and tripeptides of similar to EMs structure was synthesized and tested in vitro and in vivo for their ability to inhibit degradation of EMs. The obtained results indicated that, among the series of analogs, the tetrapeptide Tyr-Pro-d-ClPhe-Phe-NH(2) and the tripeptide Tyr-Pro-Ala-NH(2), which did not bind to the µ-opioid receptors, were potent inhibitors of EM catabolism in rat brain homogenate. In vivo, these two peptides significantly prolonged the analgesic and antidepressant-like effects, induced by exogenous EMs, by blocking EM degrading enzymes. These new potent inhibitors may therefore increase the level and the half life of endogenous EMs and could be used in a new therapeutic strategy against pain and mood disorders, based on increasing of EM bioavailability.

Structure-activity relationships of a series of analogues of the RFamide-related peptide 26RFa.

26RFa is a new member of the RFamide peptide family that has been identified as the endogenous ligand of the orphan GPCR GPR103. As the C-terminal heptapeptide (26RFa((20-26))) mimics the action of the native peptide on food intake and gonadotropin secretion in rodents, we have synthesized a series of analogues of 26RFa((20-26)) and measured their potency to induce [Ca(2+)](i) mobilization in Gα(16)-hGPR103-transfected CHO cells. Systematic replacement of each residue by an alanine (Ala scan) and its D-enantiomer (D scan) showed that the last three C-terminal residues were very sensitive to the substitutions while position 23 tolerated rather well both modifications. Most importantly, replacement of Ser(23) by a norvaline led to an analogue, [Nva(23)]26RFa((20-26)), that was 3-fold more potent than the native heptapeptide. These new pharmacological data, by providing the first information regarding the structure-activity relationships of 26RFa analogues, should prove useful for the rational design of potent GPR103 receptor ligands with potential therapeutic application.

The COMT Val158Met polymorphism affects the response to entacapone in Parkinson's disease: a randomized crossover clinical trial.

OBJECTIVE: In Parkinson disease (PD), the selective C-O-methyltransferase (COMT) inhibitor entacapone prolongs the effect of levodopa on motor symptoms (ON time) by increasing its bioavailability. The COMT Val158Met polymorphism is equally distributed in PD patients and modulates COMT activity, which can be high (Val/Val, COMT(HH) ), intermediate (Val/Met, COMT(HL) ), or low (Met/Met, COMT(LL) ). The objective of this study was to determine the response to entacapone in COMT(HH) and COMT(LL) PD patients. METHODS: Thirty-three PD patients, homozygous for the COMT alleles COMT(HH) (n = 17) and COMT(LL) (n = 16), were randomized in a double-blind crossover trial consisting of 2 successive acute levodopa challenges associated with 200mg entacapone or placebo. The primary endpoint was the gain in the best ON time. Secondary endpoints were levodopa pharmacokinetics and COMT activity in red blood cells. RESULTS: The gain in the best ON time was higher in COMT(HH) than in COMT(LL) patients (39 ± 10 vs 9 ± 9 minutes, p = 0.04, interaction between treatment and genotype). Area under the concentration over time curve of levodopa increased more after entacapone in COMT(HH) than in COMT(LL) patients (+62 ± 6% vs +34 ± 8%, p = 0.01). COMT inhibition by entacapone was higher in COMT(HH) than in COMT(LL) patients (-0.54 ± 0.07 vs -0.31 ± 0.06 pmol/min/mg protein, p = 0.02). INTERPRETATION: The COMT(HH) genotype in PD patients enhances the effect of entacapone on the pharmacodynamics and pharmacokinetics of levodopa. The response to entacapone after repeated administrations and in heterozygous patients remains to be determined.

[Treatment of insomnia. Pharmacological approaches and their limitations]. / Le traitement de i'insomnie. Les possibilités pharmacologiques et leurs limites.

Far more people complain of inadequate sleep than of true insomnia warranting prescription of a hypnotic drug. The number of available hypnotics has fallen markedly in recent years. Numerous brain areas, transmitters and receptors are involved in sleep. Currently, the main hypnotics (benzodiazepine derivatives and the so-called 4Z group. Zolpidem, Zopiclone, EsZopiclone and Zaleplon) increase GABAergic transmission by acting on components of chloride channels, thereby inducing Cl entry to neurons and resulting in their hyperpolarisation. This pre-eminence of GABAergic transmission should not make us ignore other important transmitters and their receptors as potential targets for new hypnotic drugs; these include histamine (and H1 receptors), dopamine (D1 and D2), norepinephrine (alpha1), serotonin (5HT2), glutamate (NMDA), acetylcholine (nicotinic), hypocretin (OX1 and OX2), melatonin (MLT1 and MLT2), prostaglandin E2 (EP), prostaglandin D2 (DP1), and endocannabinoids (CB1). Knowledge of the pharmacodynamic, pharmacokinetic and clinical characteristics of current hypnotic drugs has allowed us to establish the profile of an ideal hypnotic for the future.

Erythrocytes catechol-o-methyl transferase activity is up-regulated after a 3-month treatment by entacapone in parkinsonian patients.

OBJECTIVES: Entacapone is a highly potent, reversible, peripherally acting catechol-O-methyl transferase (COMT) inhibitor that is used as an adjunct to L-dopa in the treatment of patients with Parkinson disease (PD). Nevertheless, the consequence of the long-lasting inhibition of COMT by entacapone has never been investigated. We assessed the variation of the soluble red blood cell (S-RBC)-COMT activity after 3 months of chronic treatment by entacapone. METHODS: Twelve consecutive white PD patients (3 women and 9 men; mean age, 65.7 ± 2.4 years) with L-dopa-related motor fluctuations were assessed. Entacapone 200 mg was given in combination with each scheduled L-dopa/dopa decarboxylase inhibitor dose (range, 3-5 doses daily). The S-RBC-COMT activity was determined both before entacapone administration (baseline) and twice, respectively, after 1 and 3 months treatment with entacapone, that is, on morning, after at least a 12-hour withdrawal of entacapone and L-dopa and before the following first daily administration. RESULTS: Mean baseline S-RBC-COMT activity was 0.72 ± 0.09 pmol/min per milligram (range, 0.30-1.29 pmol/min per milligram) of protein. After 3 months, the level increased significantly in all PD patients from 0.72 ± 0.09 pmol/min per milligram (range, 0.30-1.29 pmol/min per milligram) to 1.19 ± 0.13 pmol/min per milligram (range, 0.58-2.14 pmol/min per milligram) of protein (P < 0.01), which corresponds to a mean increase of 72.9 ± 9.2% (range, 24%-146%). CONCLUSIONS: Our findings suggest that a long-lasting inhibition of the COMT may limit the efficacy of entacapone by development of a tolerance. Moreover, one may assume that an abrupt withdrawal of the treatment will be followed by a dramatic worsening of motor disability.

Structural and pharmacological characteristics of chimeric peptides derived from peptide E and beta-endorphin reveal the crucial role of the C-terminal YGGFL and YKKGE motifs in their analgesic properties.

Peptide E (a 25-amino acid peptide derived from proenkephalin A) and beta-endorphin (a 31-amino acid peptide derived from proopiomelanocortin) bind with high affinity to opioid receptors and share structural similarities but induce analgesic effects of very different intensity. Indeed, whereas they possess the same N-terminus Met-enkephalin message sequence linked to a helix by a flexible spacer and a C-terminal part in random coil conformation, in contrast with peptide E, beta-endorphin produces a profound analgesia. To determine the key structural elements explaining this very divergent opioid activity, we have compared the structural and pharmacological characteristics of several chimeric peptides derived from peptide E and beta-endorphin. Structures were obtained under the same experimental conditions using circular dichroism, computational estimation of helical content and/or nuclear magnetic resonance spectroscopy (NMR) and NMR-restrained molecular modeling. The hot-plate and writhing tests were used in mice to evaluate the antinociceptive effects of the peptides. Our results indicate that neither the length nor the physicochemical profile of the spacer plays a fundamental role in analgesia. On the other hand, while the functional importance of the helix cannot be excluded, the last 5 residues in the C-terminal part seem to be crucial for the expression or absence of the analgesic activity of these peptides. These data raise the question of the true function of peptides E in opioidergic systems.

Synthesis, radiosynthesis and biological evaluation of 1,4-dihydroquinoline derivatives as new carriers for specific brain delivery.

In spite of numerous reports dealing with the use of 1,4-dihydropyridines as carriers to deliver biological active compounds to the brain, this chemical delivery system (CDS) suffers from poor stability of the 1,4-dihydropyridine derivatives towards oxidation and hydration reactions seriously limiting further investigations in vivo. In an attempt to overcome these limitations, we report herein the first biological evaluation of more stable annellated NADH models in the quinoline series as relevant neuroactive drug-carrier candidates. The radiolabeled 1,4-dihydroquinoline [(11)C] was prepared to be subsequently peripherally injected in rats. The injected animals were sacrificed and brains were collected. The radioactivity measured in rat brain indicated a rapid penetration of the carrier [(11)C] into the CNS. HPLC analysis of brain homogenates showed that oxidation of [(11)C] into the corresponding quinolinium salt [(11)C] was completed in less than 5 min. An in vivo evaluation in mice is also reported to illustrate the potential of such 1,4-dihydroquinoline derivatives to transport a neuroactive drug in the CNS. For this purpose, gamma-aminobutyric acid (GABA), well known to poorly cross the brain blood barrier (BBB) was connected to this 1,4-dihydroquinoline-type carrier. After i.p. injection of 1,4-dihydroquinoline-GABA derivative in mice, a significant alteration of locomotor activity (LMA) was observed presumably resulting from an enhancement of central GABAergic activity. These encouraging results give strong evidence for the capacity of carrier-GABA derivative to cross the BBB and exert a pharmacological effect on the CNS. This study paves the way for further progress in designing new redox chemical delivery systems.