Cataleptic effects of γ-hydroxybutyrate (GHB) and baclofen in mice: mediation by GABAB receptors, but differential enhancement by N-methyl-d-aspartate (NMDA) receptor antagonists

Koek, Wouter

doi:10.1007/s00213-008-1160-5

Cited by 29 publications

(29 citation statements)

References 44 publications

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“…However, there is growing evidence that the GABA B receptor mechanisms underlying the effects of baclofen and GHB are not identical. First, differential enhancement of behavioral effects (discriminative stimulus effects, catalepsy) of baclofen and GHB by N-methyl-D-aspartate antagonists suggests that the GABA B receptors involved in these effects of baclofen and GHB are not identical (Koek et al, 2007a;Koek and France, 2008). Second, differential antagonism of behavioral effects of baclofen and GHB by CGP35348, reported previously (Koek et al, , 2007bCarter et al, 2006) and also observed in the present study, is further evidence that different GABA B receptor populations mediate these effects of baclofen and GHB.…”

Section: Discussionsupporting

confidence: 85%

“…First, the GABA B receptor antagonist 3-aminopropyl(diethoxymethyl) phosphinic acid (CGP35348) antagonizes the behavioral effects of GHB (discriminative stimulus effects, suppression of operant responding, catalepsy) less potently than those of baclofen (Koek et al, , 2007bCarter et al, 2006). Second, N-methyl-D-aspartate antagonists enhance the behavioral effects of GHB (discriminative stimulus effects, catalepsy), but not those of baclofen (Koek et al, 2007a;Koek and France, 2008). Preferential activity of GHB at GABA B heteroreceptors on glutamatergic neurons and baclofen at GABA B autoreceptors on GABAergic neurons could conceivably account for some of these differences (Carter et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

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Effects of the GABA_B Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Koek¹,

Cheng

Rice

2012

J Pharmacol Exp Ther

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In vivo effects of GABA B receptor-positive modulators suggest them to have therapeutic potential to treat central nervous system disorders such as anxiety and drug abuse. Although these effects are thought to be mediated by positive modulation of GABA B receptors, such modulation has been examined primarily in vitro. This study further examined the in vivo properties of the GABA B receptor-positive modulators 2,6-di-tert-butyl-4-(3-hydroxy-2,2-dimethylpropyl) phenol (CGP7930) and (R,S)-5,7-di-tert-butyl-3-hydroxy-3-trifluoromethyl-3H-benzofuran-2-one (rac-BHFF). In pigeons discriminating baclofen from saline, ␥-hydroxybutyrate (GHB) produced 100% baclofen-appropriate responding, and the GABA B antagonist 3-aminopropyl(dimethoxymethyl) phosphinic acid (CGP35348) blocked the effects of both drugs. CGP7930 and rac-BHFF produced at most 41 and 74% baclofen-appropriate responding, respectively, and enhanced the discriminative stimulus effects of baclofen, but not of GHB. In pigeons discriminating GHB from saline, CGP7930 and rac-BHFF produced at most 1 and 49% GHB-appropriate responding, respectively, and enhanced the effects of baclofen, but not of GHB. Enhancement of the discriminative stimulus effects of baclofen by rac-BHFF and CGP7930 is further evidence of their effectiveness as GABA B receptor-positive modulators in vivo. Furthermore, lack of complete substitution of the positive modulators rac-BHFF and CGP7930 for baclofen and GHB suggests that their discriminative stimulus effects differ from those of GABA B receptor agonists. Finally, together with converging evidence that the GABA B receptor populations mediating the effects of baclofen and GHB are not identical, the present findings suggest that these populations differ in their susceptibility to positive modulatory effects. Such differences could allow for more selective therapeutic targeting of the GABA B system.

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Section: Discussionsupporting

confidence: 85%

Section: Introductionmentioning

confidence: 99%

Effects of the GABA_B Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Koek¹,

Cheng

Rice

2012

J Pharmacol Exp Ther

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“…The cataleptic effects of GHB are enhanced not only by MK-801 but also by other drugs with NMDA antagonist activity, such as phencyclidine (PCP) and ketamine. However, these NMDA antagonists do not affect the cataleptic effects of baclofen (Koek and France, 2008). Similar interactions have been observed in drug discrimination studies; PCP enhances the discriminative stimulus effects of GHB but not of baclofen (Koek et al, 2007a).…”

supporting

confidence: 74%

“…The NMDA antagonist PCP and GHB enhance each other's discriminative stimulus effects, but PCP and baclofen do not, suggesting that the mechanisms underlying these effects of GHB and baclofen are differentially modulated by the glutamatergic system with which PCP interacts (Koek et al, 2007a). The recent finding that PCP and other antagonists at the NMDA subtype of glutamate receptors enhance the cataleptic effects of GHB but not those of baclofen (Koek and France, 2008) provides further evidence that the GABA B receptor systems mediating the effects of GHB and baclofen are differentially modulated by glutamate.…”

Section: Discussionmentioning

confidence: 99%

“…One line of evidence is from studies that examined the interactions of GHB and baclofen with antagonists at the N-methyl-D-aspartate (NMDA) subtype of glutamate receptors. The NMDA antagonist dizocilpine (MK-801) enhances GHB-induced catalepsy in rodents (Sevak et al, 2004(Sevak et al, , 2005Koek and France, 2008). The cataleptic effects of GHB are enhanced not only by MK-801 but also by other drugs with NMDA antagonist activity, such as phencyclidine (PCP) and ketamine.…”

mentioning

confidence: 99%

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Behavioral Effects of γ-Hydroxybutyrate, Its Precursor γ-Butyrolactone, and GABA_B Receptor Agonists: Time Course and Differential Antagonism by the GABA_B Receptor Antagonist 3-Aminopropyl(diethoxymethyl)phosphinic Acid (CGP35348)

Koek

Mercer

Coop

2009

J Pharmacol Exp Ther

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␥-Hydroxybutyrate (GHB) is used therapeutically and recreationally. The mechanism by which GHB produces its therapeutic and recreational effects is not entirely clear, although GABA B receptors seem to play an important role. This role could be complex, because there are indications that different GABA B receptor mechanisms mediate the effects of GHB and the prototypical GABA B receptor agonist baclofen. To further explore possible differences in underlying GABA B receptor mechanisms, the present study examined the effects of GHB and baclofen on operant responding and their antagonism by the GABA B receptor antagonist 3-aminopropyl(diethoxymethyl)phosphinic acid (CGP35348). Pigeons were trained to peck a key for access to food during response periods that started at different times after the beginning of the session. In these pigeons, GHB, its precursor ␥-butyrolactone (GBL), and the GABA B receptor agonists baclofen and 3-aminopropyl(methyl)phosphinic acid hydrochloride (SKF97541) decreased the rate of responding in a dose-and time-dependent manner. CGP35348 shifted the dose-response curve of each agonist to the right, but the magnitude of the shift differed among the agonists. Schild analysis yielded a pA 2 value of CGP35348 to antagonize GHB and GBL [i.e., 3.9 (3.7-4.2)] that was different (P ϭ 0.0011) from the pA 2 value to antagonize baclofen and SKF97541 [i.e., 4.5 (4.4 -4.7)]. This finding is further evidence that the GABA B receptor mechanisms mediating the effects of GHB and prototypical GABA B receptor agonists are not identical. A better understanding of the similarities and differences between these mechanisms, and their involvement in the therapeutic effects of GHB and baclofen, could lead to more effective medications with fewer adverse effects.

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Sedative‐Hypnotic Agents That Impact Gamma‐Aminobutyric Acid Receptors: Focus on Flunitrazepam, Gamma‐Hydroxybutyric Acid, Phenibut, and Selank

Doyno

White

2021

The Journal of Clinical Pharma

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There are many nonopioid central nervous system depressant substances that share a gamma‐aminobutyric acid (GABA) receptor–related mechanism of action. These sedatives‐hypnotics can be indicated to treat anxiety, seizures, depression, and insomnia but are also used as substances of abuse and used to facilitate sexual assault. Barbiturates, methaqualone, and glutethimide were among the first type A GABA receptor–mediated sedative‐hypnotics. Their clinical use was limited for most indications by serious adverse events and strong abuse potential but continue to be used illicitly around the world. The benzodiazepines supplanted barbiturates for most indications because they were less likely to cause severe adverse events in monotherapy. Flunitrazepam is a newer benzodiazepine that is preferentially used recreationally and to facilitate sexual assault. Flunitrazepam has greater potency and higher affinity for the type A GABA receptor than most benzodiazepines. Gamma‐hydroxybutyric acid is sought illicitly for its hypnotic, euphoric and anabolic effects as well as to facilitate sexual assault. When any of these GABAergic drugs are used in high doses or with other sedative hypnotic agents, respiratory depression, coma, and death have occurred. Chronic use of these GABAergic drugs can lead to significant withdrawal syndromes. Phenibut and selank are poorly studied Russian drugs with GABAergic mechanisms that are inexplicably sold to US consumers as dietary supplements. Poison control center calls regarding phenibut have increased substantially over the past 5 years. Desired euphoriant effects account for the recreational and illicit use of many GABA‐modulating agents. However, illicit use can lead to significant toxicities related to abuse, dependence, and subsequent withdrawal syndromes. Significant evaluation of developing agents with GABA properties should be conducted to determine abuse potential before public access ensues.

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Cataleptic effects of γ-hydroxybutyrate (GHB) and baclofen in mice: mediation by GABAB receptors, but differential enhancement by N-methyl-d-aspartate (NMDA) receptor antagonists

Cited by 29 publications

References 44 publications

Effects of the GABA_B Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Effects of the GABA_B Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Behavioral Effects of γ-Hydroxybutyrate, Its Precursor γ-Butyrolactone, and GABA_B Receptor Agonists: Time Course and Differential Antagonism by the GABA_B Receptor Antagonist 3-Aminopropyl(diethoxymethyl)phosphinic Acid (CGP35348)

Sedative‐Hypnotic Agents That Impact Gamma‐Aminobutyric Acid Receptors: Focus on Flunitrazepam, Gamma‐Hydroxybutyric Acid, Phenibut, and Selank

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Cataleptic effects of γ-hydroxybutyrate (GHB) and baclofen in mice: mediation by GABAB receptors, but differential enhancement by N-methyl-d-aspartate (NMDA) receptor antagonists

Cited by 29 publications

References 44 publications

Effects of the GABAB Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Effects of the GABAB Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Behavioral Effects of γ-Hydroxybutyrate, Its Precursor γ-Butyrolactone, and GABAB Receptor Agonists: Time Course and Differential Antagonism by the GABAB Receptor Antagonist 3-Aminopropyl(diethoxymethyl)phosphinic Acid (CGP35348)

Sedative‐Hypnotic Agents That Impact Gamma‐Aminobutyric Acid Receptors: Focus on Flunitrazepam, Gamma‐Hydroxybutyric Acid, Phenibut, and Selank

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Product

Resources

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Effects of the GABA_B Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Effects of the GABA_B Receptor-Positive Modulators CGP7930 and rac-BHFF in Baclofen- and γ-Hydroxybutyrate-Discriminating Pigeons

Behavioral Effects of γ-Hydroxybutyrate, Its Precursor γ-Butyrolactone, and GABA_B Receptor Agonists: Time Course and Differential Antagonism by the GABA_B Receptor Antagonist 3-Aminopropyl(diethoxymethyl)phosphinic Acid (CGP35348)