GABAB Receptor Agonist Research Articles

Targeting retrieval of methamphetamine reward memory in the context of REM sleep deprivation: Age-dependent role of GABAB receptors

GABAB receptors play a modulatory role in the mechanisms underlying drug addiction, sleep problems, and aging; however, there are few studies addressing their relationship. Therefore, this study aimed to examine whether blockade of these receptors affects methamphetamine (METH) reward memory in adult and adolescent rapid-eye movement sleep deprived (RSD) rats. Adolescent and adult male Wistar rats were subjected to RSD for seven days. They were then conditioned to receive methamphetamine (METH; 2 mg/kg, ip) during an eight-day conditioning period. METH reward memory was then reactivated during a retrieval trial and the GABAB receptor agonist baclofen (2.5 or 5 mg/kg, ip) was injected prior to the retrieval trial. Afterward, animals were retested for the expression of conditioned place preference (CPP) and hippocampal expression of GABAB receptors. Baclofen dose-dependently decreased the retrieval of METH reward memory in control and RSD adult and adolescent rats, but its effects were stronger at the higher dose. Moreover, we found stronger effects of baclofen in adolescent animals than in adult ones. In addition, baclofen at its higher dose decreased GABAB overexpression in the hippocampus of adolescent rats, but not in adult rats. These findings shed new light on the mechanisms underlying the role of GABAB receptors in the retrieval of METH reward memory and highlight the importance of considering age and sleep patterns in understanding addiction. Further research could potentially lead to the development of therapeutics for individuals struggling with METH addiction.

Role of dorsal striatum circuits in relapse to opioid seeking after voluntary abstinence

AbstractHigh relapse rate during abstinence is a defining characteristic of drug addiction. We previously found that opioid seeking progressively increases after voluntary abstinence induced by adverse consequences of oxycodone seeking (crossing an electric barrier). Functional MRI revealed that this effect is associated with changes in functional connectivity within medial orbitofrontal cortex (mOFC)- and dorsomedial striatum (DMS)-related circuits. Here, we used a pharmacological manipulation and fMRI to determine the causal role of mOFC and DMS in oxycodone seeking after electric barrier-induced abstinence. We trained rats to self-administer oxycodone (6 h/day, 14 days). Next, we induced voluntary abstinence by exposing them to an electric barrier for 2 weeks. We inactivated the mOFC and DMS with muscimol+baclofen (GABAa and GABAb receptor agonists) and then tested them for relapse to oxycodone seeking on abstinence days 1 or 15 without the electric barrier or oxycodone. Inactivation of DMS (p < 0.001) but not mOFC decreased oxycodone seeking before or after electric barrier-induced abstinence. Functional MRI data revealed that DMS inactivation decreased cerebral blood volume levels in DMS and several distant cortical and subcortical regions (corrected p < 0.05). Furthermore, functional connectivity of DMS with several frontal, sensorimotor, and auditory regions significantly increased after DMS inactivation (corrected p < 0.05). Finally, an exploratory analysis of an existing functional MRI dataset showed that DMS inactivation restored voluntary abstinence-induced longitudinal changes in DMS functional connectivity with these brain regions (p < 0.05). Results indicate a role of DMS and related brain circuits in oxycodone seeking after voluntary abstinence, suggesting potential targets for intervention.

The effects of intra-accumbal administration of the nicotinic acetylcholine receptor agonist cytisine on the operant oral self-administration of ethanol were prevented by the GABAB receptor agonist baclofen in rats

RationaleAlthough the mesocorticolimbic dopamine (DA) system is the main neurochemical substrate that regulates the addictive and reinforcing effects of ethanol (EtOH), other neurotransmitter systems, such as the acetylcholine (Ach) system, modulate DAergic function in the nucleus accumbens (nAcc). Previously, we reported that intra-nAcc administration of the nicotinic Ach receptor agonist cytisine increased oral EtOH self-administration. GABAB receptors in the nAcc are expressed in DAergic terminals, inhibit the regulation of DA release into the nAcc, and could modulate the effects of cytisine on oral EtOH self-administration. The present study assessed the effects of intra-nAcc administration of the GABAB receptor agonist baclofen (BCF) on the impacts of cytisine on oral EtOH self-administration. Methods: Male Wistar rats were deprived of water for 23.30 h and then trained to press a lever to receive EtOH on an FR3 schedule until a stable response rate of 80 % was achieved. After this training, the rats received an intra-nAcc injection of the nAch receptor agonist cytisine, BCF, and cytisine or 2-hydroxysaclofen, BCF, and cytisine before they were given access to EtOH on an FR3 schedule. Results: Intra-nAcc injections of cytisine increased oral EtOH self-administration; this effect was reduced by BCF, and 2-hydroxysaclofen blocked the effects of BCF. Conclusions: These findings suggest that the reinforcing effects of EtOH are modulated not only by the DA system but also by other neurotransmitter systems involved in regulating DA release from DAergic terminals.

Baclofen prevents morphine rewarding effects and associated biochemical alterations in male and female mice

Previous studies from our laboratory have shown sex differences in the behavioral, molecular, and neurochemical manifestations of morphine withdrawal and they were related to an increased sensitivity to morphine effects in males. In addition, we observed an interaction between the GABAergic and opioid systems that could also be sex-dependent. Baclofen, a GABAB receptor agonist, prevented the somatic expression and the molecular and neurochemical changes induced by morphine withdrawal syndrome in mice. On the contrary, little is known about baclofen effects in the rewarding properties of morphine in male and female mice. The present study aimed to explore the effect of baclofen (1, 2 and 3 mg/kg, i.p.) pretreatment in the rewarding effects induced by morphine (7 mg/kg, s.c.) and its effect on c-Fos and brain-derived neurotrophic factor (BDNF) expression induced by the rewarding properties of morphine in prepubertal male and female mice. Baclofen (2 mg/kg) pretreatment prevented the rewarding effects of morphine only in male mice, while baclofen (3 mg/kg) reduced these effects in both sexes. Moreover, the rewarding effects of morphine were associated with a decrease of BDNF and c-Fos expression cingulate cortex, nucleus accumbens shell, cornu ammonis 1 (CA1), and cornu ammonis 3 (CA3) areas of the hippocampus only in male mice. In addition, baclofen pretreatment prevented these changes in BDNF, but not in c-Fos expression. In conclusion, our results show that GABAB receptors have a regulatory role in the rewarding effects of morphine that could be of interest for a potential future therapeutic application in opioid use disorders.

Use of Baclofen Premedication as an Analgesic Adjuvant in Patients Undergoing Percutaneous Nephrolithotripsy: A Placebo-Controlled, Double-Blind Randomized Trial.

Baclofen, a clinically available GABAB receptor agonist, produces nonopioid analgesia in multiple models of pain but has had limited studies related to perioperative pain control.The present study seeks to study effects of baclofen on postoperative pain measures and opioid use in adult patients subjected to percutaneous nephrolithotomy (PCNL). Using a placebo-controlled, double-blind methodology, a single 10 mg oral dose of baclofen or placebo was given prior to a surgery in 34 patients undergoing PCNL.Standardized intraoperative and postoperative protocols related to opioid use were followed.Use of postoperative opioids in the post-anesthesia care unitand for the first 24 hours following surgery were recorded as were pain scores and other medication use. There was a significant positive correlation in the use of postoperative opioids in patients who had a preceding history of opioid use.However, there were no significant differences in opioid use which could be attributed to baclofen.There were also no differences in postoperative vital signs, side effects or other medication use. Analgesic benefits of preoperative baclofen were not observed at the dose employed.Safety of the drug was observed.

Efficacy of Baclofen as Add-on Therapy for Refractory Gastroesophageal Reflux Disease: A Meta-analysis.

As a GABAB receptor agonist, baclofen has demonstrated efficacy in alleviating symptoms of refractory gastroesophageal reflux disease (r-GERD). This meta-analysis aims to evaluate the safety and effectiveness of baclofen as an add-on therapy for this condition. We conducted a comprehensive search of the PubMed, Embase, and Web of Science databases for studies published up until October 2023. Subsequently, we performed a meta-analysis encompassing all eligible trials. From 719 records, 10 studies were included, most of these studies were moderate risk. The findings demonstrated that the addition of baclofen as a supplementary treatment effectively improves symptoms (GERD Q score) in r-GERD (standardized mean difference=-0.78, 95% CI: -1.06 to -0.51, I2=0%). The addition of this treatment also resulted in a decrease in the frequency of nonacidic reflux episodes (standardized mean difference=-0.93, 95% CI: -1.49 to -0.37, I2=63%) and an improvement in DeMeester scores (standardized mean difference=-0.82, 95% CI: -1.61 to -0.04, I2=81%) among patients with r-GERD when compared with the use of proton pump inhibitor (PPI) drugs alone. However, no significant disparity was observed in terms of reducing acid reflux episodes (standardized mean difference=-0.12, 95% CI: -0.49 to 0.19, I2=0%) and proximal reflux (standardized mean difference=-0.47, 95% CI: -1.08 to 0.14, I2=60%). Baclofen as an add-on treatment can effectively improve the symptoms of patients with r-GERD and reduce the incidence of nonacidic reflux and improve DeMeester score. However, long-term use of baclofen leads to an increased incidence of side effects and is not effective in reducing the occurrence of acid reflux.

Neuroprotective effects of Shaoyao Gancao decoction against excitatory damage in PC12 cells based on the Src-NR2-nNOS pathway

ObjectiveTo explore the neuroprotective effects of the Shaoyao Gancao decoction (SGD) against excitatory damage in PC12 cells and the role of the Src-NR2-nNOS pathway mediation by SGD in regulating γ-aminobutyric acid (GABA)-glutamate (Glu) homeostasis. MethodsN-Methyl-d-aspartic acid (NMDA) was used to establish a PC12 cell excitability injury model. To investigate the neuroprotective effect of SGD, a cell counting kit-8 (CCK-8) assay was used to determine PC12 cell viability, Annexin V/Propidium Iodide (Annexin V/PI) double staining was used to determine PC12 cell apoptosis, and Ca2+ concentration was observed using laser confocal microscopy. GABA receptor agonists and antagonists were used to analyze the neuroprotective interactions between γ-aminobutyric acid (GABA) and NMDA receptors. Additionally, molecular biology techniques were used to determine mRNA and protein expression in the Src-NR2-nNOS pathway. We analyzed the correlations between the regulatory sites of GABA and NMDA interactions, excitatory neurotoxicity, and brain damage at the molecular level. ResultsNMDA excitotoxic injury manifested as a significant decrease in cell activity, increased apoptosis and caspase-3 protein expression, and a significant increase in intracellular Ca2+ concentration. Administration of SGD, a GABAA receptor agonist (muscimol), or a GABAB receptor agonist (baclofen) decreased intracellular Ca2+ concentrations, attenuated apoptosis, and reversed NMDA-induced upregulation of caspase-3, Src, NMDAR2A, NMDAR2B, and nNOS. Unexpectedly, a GABAA receptor antagonist (bicuculline) and a GABAB receptor antagonist (saclofen) failed to significantly increase excitatory neurotoxicity. ConclusionsTaken together, these results not only provide an experimental basis for SGD administration in the clinical treatment of central nervous system injury diseases, but also suggest that the Src-NR2A-nNOS pathway may be a valuable target in excitotoxicity treatment.

Extrasynaptic δGABAA receptors mediate resistance to migraine-like phenotype in rats

BackgroundGABA, a key inhibitory neurotransmitter, has synaptic and extrasynaptic receptors on the postsynaptic neuron. Background GABA, which spills over from the synaptic cleft, acts on extrasynaptic delta subunit containing GABAA receptors. The role of extrasynaptic GABAergic input in migraine is unknown. We investigated the susceptibility to valid migraine-provoking substances with clinically relevant behavioral readouts in Genetic Absence Epilepsy of Rats Strasbourg (GAERS), in which the GABAergic tonus was altered. Subsequently, we screened relevant GABAergic mechanisms in Wistar rats by pharmacological means to identify the mechanisms.MethodsWistar and GAERS rats were administered nitroglycerin (10 mg/kg) or levcromakalim (1 mg/kg). Mechanical allodynia and photophobia were assessed using von Frey monofilaments and a dark-light box. Effects of GAT-1 blocker tiagabine (5 mg/kg), GABAB receptor agonist baclofen (2 mg/kg), synaptic GABAA receptor agonist diazepam (1 mg/kg), extrasynaptic GABAA receptor agonists gaboxadol (4 mg/kg), and muscimol (0.75 mg/kg), T-type calcium channel blocker ethosuximide (100 mg/kg) or synaptic GABAA receptor antagonist flumazenil (15 mg/kg) on levcromakalim-induced migraine phenotype were screened.ResultsUnlike Wistar rats, GAERS exhibited no reduction in mechanical pain thresholds or light aversion following nitroglycerin or levcromakalim injection. Ethosuximide did not reverse the resistant phenotype in GAERS, excluding the role of T-type calcium channel dysfunction in this phenomenon. Tiagabine prevented levcromakalim-induced mechanical allodynia in Wistar rats, suggesting a key role in enhanced GABA spillover. Baclofen did not alleviate mechanical allodynia. Diazepam failed to mitigate levcromakalim-induced migraine phenotype. Additionally, the resistant phenotype in GAERS was not affected by flumazenil. Extrasynaptic GABAA receptor agonists gaboxadol and muscimol inhibited periorbital allodynia in Wistar rats.ConclusionOur study introduced a rat strain resistant to migraine-provoking agents and signified a critical involvement of extrasynaptic δGABAergic receptors. Extrasynaptic δ GABAA receptors, by mediating constant background inhibition on the excitability of neurons, stand as a novel drug target with a therapeutic potential in migraine.Graphical abstract

Influence of GABAA and GABAB receptor activation on auditory sensory gating and its association with anxiety in healthy volunteers.

Dysfunctional sensory gating in anxiety disorders, indexed by the failure to inhibit the P50 event-related potential (ERP) to repeated stimuli, has been linked to deficits in the major inhibitory neurotransmitter γ-aminobutyric acid (GABA). This study, conducted in 30 healthy volunteers, examined the acute effects of GABAA (lorazepam: 1 mg) and GABAB receptor (baclofen: 10 mg) agonists on P50 measures of auditory sensory gating within a paired-stimulus (S1-S2) paradigm and assessed changes in gating in relation to self-ratings of anxiety. Compared to placebo, lorazepam reduced ERP indices of sensory gating by attenuating response to S1. Although not directly impacting P50 inhibition, baclofen-induced changes in gating (relative to placebo) were negatively correlated with trait but not state anxiety. These preliminary findings support the involvement of GABA in sensory gating and tentatively suggest a role for GABAB receptor signaling in anxiety-associated gating dysregulation.

A Review of Current and Future Pharmacologic Treatments for Narcolepsy

IntroductionNarcolepsy is a rare but disabling neurological disorder involving disruption of the sleep-wake cycle that is often under- or misdiagnosed (Barateau L, et al. J Sleep Res. 2022;31(4):e13631). It is characterized by a classical tetrad of excessive daytime sleepiness (EDS), cataplexy, hypnagogic hallucinations, and sleep paralysis. Narcolepsy is divided into 3 types: Narcolepsy Type 1 (NT1); Narcolepsy Type 2 (NT2); and Secondary Narcolepsy. The pathophysiology remains unclear but is primarily associated with loss of hypocretin (orexin) neurons involving autoimmune and genetic risk factors, particularly for NT1.ObjectivesTo review the currently available therapies for the treatment of narcolepsy.MethodsThe extant literature was reviewed and discussed in the context of clinical relevance.ResultsTreatment historically has included medications developed for the treatment of other conditions such as psychostimulants (methylphenidate, modafinil/armodafinil, pemoline) and antidepressants (SSRIs,TCAs). These agents are also associated with limiting side effects in practice. In more recent years a variety of specific treatments have been approved that act on diverse pathways. Pitolisant, a histamine H3 receptor inverse agonist, is approved for the treatment of EDS or cataplexy in adult patients with narcolepsy (and children> 6 years in European Union) (Keam SJ.Paediatr Drugs. 2023;25(4):483-488). Solriamfetol, a dopamine and norepinephrine reuptake inhibitor (DNRI) is indicated to improve wakefulness in adult patients with EDS associated with narcolepsy or obstructive sleep apnea (OSA) (Winter Y, et al. Sleep Med. 2023;103:138-143). Sodium oxybate (SXB), a GABAB receptor agonist, is approved for the treatment of cataplexy associated with narcolepsy and (EDS) in patients 7 years or older (Bogan RK, et al. CNS Drugs. 2023;37(4):323-335). Current research focuses on on-peptide hypocretin receptor-2 agonists (Saitoh T, Sakurai T. Peptides. 2023;167:171051).ConclusionsDespite limited understanding of the pathophysiology of narcolepsy there have been substantial advances in the pharmacotherapy, including medications now approved for children. Early diagnosis and treatment are associated with better outcomes. In view of the chronic and disabling morbidity associated with narcolepsy further research and better access to appopriate medications is necessary.Disclosure of InterestNone Declared

355 Risk Factors for Intrathecal Baclofen Pump Implantation Infections: A Retrospective Database Analysis

INTRODUCTION: Baclofen, a GABAB receptor agonist, can be delivered via intrathecal baclofen (ITB) pumps for patients with intractable spasticity. Prior literature has shown infection rates ranging between 10-30%. METHODS: A multi-institutional de-identified database TriNetX was queried to identify patients with: 1) implantation of ITB pump + infection within 6 months or 2) implantation of ITB pump without infection within 6 months. Two populations were analyzed: only pediatric patients, then patients of all ages. Characteristics were compared using log-rank tests and independent-sample t-tests. RESULTS: 1,880 patients were identified in the pediatric cohort, of which 236 (12.6%) developed infection. 13,936 patients of all ages were identified, of which 1955 (14.0%) developed infection. In pediatric patients who developed infection, there were higher rates of diagnoses of overweight and obesity, malnutrition, and hypokalemia; the prevalence of diabetes was also higher, but this analysis was limited by small sample size. In patients of all ages, all medical diagnoses assessed were significantly more prevalent in patients with infection. Erythrocyte sedimentation rates and platelets were significantly higher in all patients with an infection. Additionally, the number of emergency department visits within 6 months was significantly higher in the infection group for pediatric (t = 3.571, p = 0.0004) and all-age (t = 7.882, p < 0.0001) patients. CONCLUSIONS: This study suggests that patients with certain comorbidities are at increased risk for infection post-ITB implantation. Since prevalence of diabetes, abnormal coagulation profile, tracheostomy, and B-vitamin deficiency remained significantly different between infection vs. no-infection cohorts as sample size increased with the addition of adults, these diagnoses should be considered when calculating the infection risk of ITB pump. Studies are underway to investigate the time of highest infection risk post-ITB implantation and the optimal time for ITB reimplantation after removal for infection.

GABAB receptor activation promotes synaptic resilience in Alzheimer’s disease

AbstractBackgroundHyperexcitability and glutamate excitotoxicity are the primary contributors towards synapse loss in Alzheimer’s disease (AD). The goal of this project is to examine how other neurotransmitter systems, such as the inhibitory GABAergic system, are responding to hyperexcitability in AD. Therefore, we examined the role of metabotropic GABAB receptors (GABABRs) towards synapse loss.MethodsPrimary hippocampal neurons were cultured from both wildtype (WT) and transgenic APP/PS1 mice. In addition, treatment of non‐transgenic hippocampal neurons with Aβ oligomers (500nM) were used as another model of AD‐related pathology. Immunocytochemistry was used to determine the dendric expression of GABAB1R and GABAB2R, the two principal subunits of GABABRs. To examine changes in GABABR function, a calcium imaging protocol was utilized to quantify changes in calcium florescence following GABABR activation with baclofen (50μM). To understand whether GABABR activation is protective against synaptic loss in AD, APP/PS1 hippocampal neurons were treated with 50μM baclofen (GABABR agonist), 100μM CGP35348 (GABABR antagonist), or vehicle. This study used both colocalization of presynaptic (Synapsin‐1) and postsynaptic (PSD95) markers as well as a novel method, DetectSyn, to quantify changes in synaptic density.ResultsDendritic GABAB1R and GABAB2R expression is upregulated in APP/PS1 hippocampal neurons as compared to WT. Non‐transgenic neurons treated with Aβ‐oligomers also show upregulations in GABAB2R, with no changes in GABAB1R. Treating WT neurons with baclofen resulted in an approximate 10% decrease in calcium florescence. The same treatment applied to APP/PS1 neurons resulted in a significantly greater decrease (∼40%) in calcium florescence. Activating GABABRs in APP/PS1 neurons increased synaptic density as compared to vehicle treated neurons. This was indicated by a greater Pearson’s coefficient between Synapsin‐1 and PSD95, as well as a greater number of DetectSyn‐PLA puncta. Antagonizing GABABRs in APP/PS1 neurons failed to rescue synaptic density (no changes in Pearson’s coefficient/DetectSyn‐PLA puncta) when compared to vehicle treated neurons.ConclusionsUnder pathological conditions, upregulation and activation of GABABRs serves as a potential mechanism to combat against hyperexcitability, therefore preventing hippocampal synaptic loss in AD.

Characterization of a de novo GABBR2 variant linked to autism spectrum disorder

GABAB receptors (GABABRs) are G protein-coupled receptors for γ-aminobutyric acid (GABA), the major inhibitory neurotransmitter in the central nervous system. Pathogenic variants in the GABBR1 and GABBR2 genes, which encode the GB1 and GB2 subunits of GABABRs, are implicated in several neurological and developmental disorders, including epilepsy and autism. Here we present a 7-year-old boy with Level 3 Autism Spectrum Disorder who carries a de novo heterozygous missense GABBR2 p.Arg212Gln variant. This variant was identified through whole exome sequencing and classified as variant of unknown significance (VUS). Treatment with the GABABR agonist baclofen showed no clinical improvement, raising the question whether this VUS is responsible for the patient’s phenotype. We conducted a study to investigate the impact of the GABBR2 p.Arg212Gln and the previously reported GABBR2 p.Arg212Trp variants on protein structure and receptor activity. This study utilized a combination of molecular dynamics (MD) simulations, and in vitro experiments. Our simulations demonstrate that both amino acid substitutions locally alter amino acid interactions in the extracellular domain of GB2. Most importantly, the substitutions influence the positioning of transmembrane helices, shifting the conformation towards an active state with GABBR2 p.Arg212Gln and an inactive state with GABBR2 p.Arg212Trp. Functional assays confirmed the MD predictions, as evidenced by increased constitutive activity and enhanced potency of GABA for GABBR2 p.Arg212Gln, and a decreased constitutive activity with a loss of GABA potency for GABBR2 p.Arg212Trp. Our findings demonstrate the utility of MD simulations in predicting the functional consequences of VUS. Clarifying the pathogenic mechanisms associated with gene variants will aid in the identification of personalized treatment approaches.

Activation of GABA receptor attenuates intestinal inflammation by modulating enteric glial cells function through inhibiting NF-κB pathway

AimsEmerging research indicates that γ-aminobutyric acid (GABA) provides substantial benefits during enteritis. Nevertheless, GABA signaling roles on enteric glial cells (EGCs) remain unknown. The study's objective was to evaluate the underlying mechanisms of GABA signaling on EGCs in vitro and in vivo. Main methodsWe established LPS-induced mouse models and stimulated EGCs with LPS to mimic intestinal inflammation, and combined GABA, GABAA receptor (GABAAR) or GABAB receptor (GABABR) agonists to explore the exact mechanisms of GABA signaling. Key findingsEGCs were immunopositive for GAD65, GAD67, GAT1, GABAARα1, GABAARα3, and GABABR1, indicating GABAergic and GABAceptive properties. GABA receptor activation significantly inhibited the high secretions of proinflammatory factors in EGCs upon LPS stimulation. Interestingly, we found that EGCs express immune-related molecules such as CD16, CD32, CD80, CD86, MHC II, iNOS, Arg1, and CD206, thus establishing their characterization of E1 and E2 phenotype. EGCs exposed to LPS mainly acted as E1 phenotype, whereas GABABR activation strongly promoted EGCs polarization into E2 phenotype. Transcriptome analysis of EGCs indicated that GABA, GABAAR or GABABR agonists treatment participated in various biological processes, however all of these treatments exhibit inhibitory effects on NF-κB pathway. Notably, in LPS-induced mice, activation of GABABR mitigated intestinal damage through modulating inflammatory factors expressions, strengthening sIgA and IgG levels, inhibiting NF-κB pathway and facilitating EGCs to transform into E2 phenotype. SignificanceThese data demonstrate that the anti-inflammatory actions of GABA signaling system offer in enteritis via regulating EGCs-polarized function through impeding NF-κB pathway, thus providing potential targets for intestinal inflammatory diseases.

γ-aminobutyric acid B2 receptor: A potential therapeutic target for cholangiocarcinoma in patients with diabetes mellitus.

The association between diabetes mellitus (DM) and the increased risk and progression of cholangiocarcinoma (CCA) has been reported with unclear underlying mechanisms. Previous studies showed that γ-aminobutyric acid (GABA) B2 receptor (GABBR2) was upregulated in CCA cells cultured in high glucose (HG) conditions. Roles of GABA receptors in CCA progression have also been studied, but their association with DM and hyperglycemia in CCA remains unclarified. To investigate the effects of hyperglycemia on GABBR2 expression and the potential use of GABBR2 as a CCA therapeutic target. CCA cells, KKU-055 and KKU-213A, were cultured in Dulbecco Modified Eagle's Medium supplemented with 5.6 mmol/L (normal glucose, NG) or 25 mmol/L (HG) glucose and assigned as NG and HG cells, respectively. GABBR2 expression in NG and HG cells was investigated using real-time quantitative polymerase chain reaction and western blot. Expression and localization of GABBR2 in CCA cells were determined using immunocytofluorescence. GABBR2 expression in tumor tissues from CCA patients with and without DM was studied using immunohistochemistry, and the correlations of GABBR2 with the clinicopathological characteristics of patients were analyzed using univariate analysis. Effects of baclofen, a GABA-B receptor agonist, on CCA cell proliferation and clonogenicity were tested using the MTT and clonogenic assays. Phospho-kinases arrays were used to screen the affected signaling pathways after baclofen treatment, and the candidate signaling molecules were validated using the public transcriptomic data and western blot. GABBR2 expression in CCA cells was induced by HG in a dose- and time-dependent manner. CCA tissues from patients with DM and hyperglycemia also showed a significantly higher GABBR2 expression compared with tumor tissues from those with euglycemia (P < 0.01). High GABBR2 expression was significantly associated with a poorer non-papillary histological subtype but with smaller sizes of CCA tumors (P < 0.05). HG cells of both tested CCA cell lines were more sensitive to baclofen treatment. Baclofen significantly suppressed the proliferation and clonogenicity of CCA cells in both NG and HG conditions (P < 0.05). Phospho-kinase arrays suggested glycogen synthase kinase 3 (GSK3), β-catenin, and the signal transducer and activator of transcription 3 (STAT3) as candidate signaling molecules under the regulation of GABBR2, which were verified in NG and HG cells of the individual CCA cell lines. Cyclin D1 and c-Myc, the common downstream targets of GSK3/β-catenin and STAT3 involving cell proliferation, were accordingly downregulated after baclofen treatment. GABBR2 is upregulated by HG and holds a promising role as a therapeutic target for CCA regardless of the glucose condition.

Anti-proliferative and anti-inflammatory effects of the application of baclofen cream, a GABAB receptor agonist, on skin inflammation in mice

Previous studies have demonstrated the role of γ-aminobutyric acid type B (GABAB) receptors in skin-related conditions and pain. However, most studies have focused on the main effects of GABAB on the central nervous system. Therefore, this study has aimed to determine the potential topical anti-inflammatory and anti-proliferative effects of baclofen cream in an inflammatory skin disease model. The effects of the baclofen cream were evaluated using acute and chronic models of 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced skin inflammation in mouse ears. Histological and immunohistochemical evaluations were performed using an ear oedema assay. The effect of baclofen on keratinocyte proliferation was assessed in PAM212, the murine keratinocyte cell line. The results demonstrate that a single topical application of 5% baclofen, 7.5% baclofen, and 1% dexamethasone each inhibited acute TPA-induced ear oedema (58.94 ± 6.14%, 47.73 ± 11.26%, and 87.33 ± 4.59%, respectively). These results were confirmed by histological analysis. In the chronic model, baclofen (5%) and dexamethasone (1%) each inhibited ear oedema and the maximum inhibitory effect was reached at the end of the experiment (9th day of TPA application) with a percentage inhibition of 54.60 ± 6.15% for baclofen and 71.68 ± 3.45% for dexamethasone, when compared to the vehicle. These results were confirmed by histological analysis. Baclofen and dexamethasone also reduced proliferating cell nuclear antigen expression by 62.01 ± 6.65% and 70.42 ± 6.11%, respectively. However, baclofen did not inhibit keratinocyte proliferation in PAM212 cells. In conclusion, these results demonstrate that baclofen exhibits notable topical antiproliferative and anti-inflammatory properties and could be a potential therapeutic alternative for treating inflammatory and proliferative skin diseases.

Increased propensity for infantile spasms and altered neocortical excitation-inhibition balance in a mouse model of down syndrome carrying human chromosome 21

Children with Down syndrome (DS, trisomy of chromosome 21) have an increased risk of infantile spasms (IS). As an epileptic encephalopathy, IS may further impair cognitive function and exacerbate neurodevelopmental delays already present in children with DS. To investigate the pathophysiology of IS in DS, we induced IS-like epileptic spasms in a genetic mouse model of DS that carries human chromosome 21q, TcMAC21, the animal model most closely representing gene dosage imbalance in DS. Repetitive extensor/flexor spasms were induced by the GABAB receptor agonist γ-butyrolactone (GBL) and occurred predominantly in young TcMAC21 mice (85%) but also in some euploid mice (25%). During GBL application, background electroencephalographic (EEG) amplitude was reduced, and rhythmic, sharp-and-slow wave activity or high-amplitude burst (epileptiform) events emerged in both TcMAC21 and euploid mice. Spasms occurred only during EEG bursts, but not every burst was accompanied by a spasm. Electrophysiological experiments revealed that basic membrane properties (resting membrane potential, input resistance, action-potential threshold and amplitude, rheobase, input-output relationship) of layer V pyramidal neurons were not different between TcMAC21 mice and euploid controls. However, excitatory postsynaptic currents (EPSCs) evoked at various intensities were significantly larger in TcMAC21 mice than euploid controls, while inhibitory postsynaptic currents (IPSCs) were similar between the two groups, resulting in an increased excitation-inhibition (E-I) ratio. These data show that behavioral spasms with epileptic EEG activity can be induced in young TcMAC21 DS mice, providing proof-of-concept evidence for increased IS susceptibility in these DS mice. Our findings also show that basic membrane properties are similar in TcMAC21 and euploid mice, while the neocortical E-I balance is altered to favor increased excitation in TcMAC21 mice, which may predispose to IS generation.

Relationship between GABA-Ergic System and the Expression of Mephedrone-Induced Reward in Rats-Behavioral, Chromatographic and In Vivo Imaging Study.

Mephedrone is a psychoactive drug that increases dopamine, serotonin and noradrenaline levels in the central nervous system via interaction with transporters or monoamines. The aim of the presented study was to assess the role of the GABA-ergic system in the expression of mephedrone-induced reward. For this purpose, we conducted (a) a behavioral evaluation of the impact of baclofen (a GABAB receptors agonist) and GS39783 (a positive allosteric modulator of GABAB receptors) on the expression of mephedrone-induced conditioned place preference (CPP) in rats, (b) an ex vivo chromatographic determination of the GABA level in the hippocampi of rats subchronically treated with mephedrone and (c) an in vivo evaluation of GABA hippocampal concentration in rats subchronically administered with mephedrone using magnetic resonance spectroscopy (MRS). The results show that GS39783 (but not baclofen) blocked the expression of CPP induced by (20 mg/kg of) mephedrone. The behavioral effect was consistent with chromatographic analysis, which showed that mephedrone (5 and 20 mg/kg) led to a decrease in GABA hippocampal concentration. Altogether, the presented study provides a new insight into the involvement of the GABA-ergic system in the rewarding effects of mephedrone, implying that those effects are at least partially mediated through GABAB receptors, which suggests their potential role as new targets for the pharmacological management of mephedrone use disorder.

Evaluating the effect of R-Baclofen and LP-211 on autistic behavior of the BTBR and Fmr1-KO mouse models.

Autism spectrum disorder (ASD) is a persistent neurodevelopmental condition characterized by two core behavioral symptoms: impaired social communication and interaction, as well as stereotypic, repetitive behavior. No distinct cause of ASD is known so far; however, excitatory/inhibitory imbalance and a disturbed serotoninergic transmission have been identified as prominent candidates responsible for ASD etiology. The GABA B receptor agonist R-Baclofen and the selective agonist for the 5HT7 serotonin receptor LP-211 have been reported to correct social deficits and repetitive behaviors in mouse models of ASD. To evaluate the efficacy of these compounds in more details, we treated BTBR T+ Itpr3 tf /J and B6.129P2-Fmr1 tm1Cgr /J mice acutely with R-Baclofen or LP-211 and evaluated the behavior of animals in a series of tests. BTBR mice showed motor deficits, elevated anxiety, and highly repetitive behavior of self-grooming. Fmr1-KO mice exhibited decreased anxiety and hyperactivity. Additionally, Fmr1-KO mice's ultrasonic vocalizations were impaired suggesting a reduced social interest and communication of this strain. Acute LP-211 administration did not affect the behavioral abnormalities observed in BTBR mice but improved repetitive behavior in Fmr1-KO mice and showed a trend to change anxiety of this strain. Acute R-Baclofen treatment improved repetitive behavior only in Fmr1-KO mice. Our results add value to the current available data on these mouse models and the respective compounds. Yet, additional studies are needed to further test R-Baclofen and LP-211 as potential treatments for ASD therapy.

Novel neuroendocrine role of γ-aminobutyric acid and gastrin-releasing peptide in the host response to influenza infection

Gastrin-releasing peptide (GRP), an evolutionarily conserved neuropeptide, significantly contributes to influenza-induced lethality and inflammation in rodent models. Because GRP is produced by pulmonary neuroendocrine cells (PNECs) in response to γ-aminobutyric acid (GABA), we hypothesized that influenza infection promotes GABA release from PNECs that activate GABAB receptors on PNECs to secrete GRP. Oxidative stress was increased in the lungs of influenza A/PR/8/34 (PR8)-infected mice, as well as serum glutamate decarboxylase 1, the enzyme that converts L-glutamic acid into GABA. The therapeutic administration of saclofen, a GABAB receptor antagonist, protected PR8-infected mice, reduced lung proinflammatory gene expression of C-C chemokine receptor type 2 (Ccr2), cluster of differentiation 68 (Cd68), and Toll like receptor 4 (Tlr4) and decreased the levels of GRP and high-mobility group box 1 (HMGB1) in sera. Conversely, baclofen, a GABAB receptor agonist, significantly increased the lethality and inflammatory responses. The GRP antagonist, NSC77427, as well as the GABAB antagonist, saclofen, blunted the PR8-induced monocyte infiltration into the lung. Together, these data provide the first report of neuroregulatory control of influenza-induced disease.