Your search keyword '"Receptors, GABA-B genetics"' showing total 20 results

1. Role of leptin in the regulation of food intake in fasted mice.

Author

Ge TT, Yao XX, Zhao FL, Zou XH, Yang W, Cui RJ, and Li BJ

Subjects

Animals, Gene Expression Regulation genetics, Glutamate Decarboxylase genetics, Humans, Hypothalamus metabolism, Insulin blood, Mice, Neurons metabolism, Pro-Opiomelanocortin genetics, Proto-Oncogene Proteins c-fos genetics, gamma-Aminobutyric Acid genetics, Eating genetics, Fasting blood, Leptin genetics, Receptors, GABA-B genetics

Abstract

Leptin is well acknowledged as an anorexigenic hormone that plays an important role in feeding control. Hypothalamic GABA system plays a significant role in leptin regulation on feeding and metabolism control. However, the pharmacological relationship of leptin and GABA receptor is still obscure. Therefore, we investigated the effect of leptin or combined with baclofen on the food intake in fasted mice. We detected the changes in hypothalamic c-Fos expression, hypothalamic TH, POMC and GAD67 expression, plasma insulin, POMC and GABA levels to demonstrate the mechanisms. We found that leptin inhibit fasting-induced increased food intake and activated hypothalamic neurons. The inhibitory effect on food intake induced by leptin in fasted mice can be reversed by pretreatment with baclofen. Baclofen reversed leptin's inhibition on c-Fos expression of PAMM in fasted mice. Therefore, these results indicate that leptin might inhibit fasting-triggered activation of PVN neurons via presynaptic GABA synaptic functions which might be partially blocked by pharmacological activating GABA-B. Our findings identify the role of leptin in the regulation of food intake., (© 2020 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published

2020

2. Moderation of baclofen response by a GABA B receptor polymorphism: results from the BacALD randomized controlled trial.

Author

Morley KC, Luquin N, Baillie A, Fraser I, Trent RJ, Dore G, Phung N, and Haber PS

Subjects

Adult, Alcohol Drinking, Female, Humans, Male, Middle Aged, Pharmacogenomic Variants, Polymorphism, Single Nucleotide, Proportional Hazards Models, Randomized Controlled Trials as Topic, Recurrence, Treatment Outcome, Alcoholism drug therapy, Baclofen therapeutic use, GABA-B Receptor Agonists therapeutic use, Receptors, GABA-B genetics

Abstract

Background and Aims: Baclofen has been shown to reduce alcohol consumption in alcohol-dependent individuals, but there is marked heterogeneity in response. An association between GABBR1 rs29220 and alcohol dependence has been demonstrated previously. The present study evaluated whether the response to baclofen is moderated by a single nucleotide polymorphism (rs29220) in the GABAB receptor subunit 1 gene (GABBR1)., Design: Double-blind, placebo-controlled study., Setting: Australia., Participants: Seventy-two alcohol-dependent men and women receiving 12 weeks of 30 mg/day of baclofen, 75 mg baclofen or placebo., Measurements: Primary outcomes included time to lapse (any drinking) and relapse (> 5 drinks per day in men and > 4 in women). We also examined alcohol consumption at follow-up (drinks per drinking day, number of heavy drinking days and percentage days abstinent)., Findings: We observed significant medication × genotype interaction effect for time to relapse (P = 0.049) and a near-significant interaction effect for time to lapse (P = 0.055). For the CC genotype group, the relapse hazard ratio for baclofen versus placebo was 0.32 [95% confidence interval (CI) = 0.14-0.75] and for the G- group it was 1.07 (95% CI = 0.43-2.63). There was also a significant medication × genotype interaction for follow-up alcohol consumption (drinks per drinking day, heavy drinking days and days abstinent) (P = 0.02). Covarying for baseline levels of craving, aspartate aminotransferase and abstinence before enrolment reduced the medication × genotype effect for time to lapse and relapse but not for alcohol consumption at follow-up., Conclusions: The GABBR1 rs29220 polymorphism may influence treatment response and possibly predict adverse effects to baclofen in the treatment of alcohol dependence., (© 2018 Society for the Study of Addiction.)

Published

2018

3. Nicotine-induced molecular alterations are modulated by GABA B receptor activity.

Author

Varani AP, Pedrón VT, Aon AJ, Höcht C, Acosta GB, Bettler B, and Balerio GN

Subjects

Animals, Baclofen analogs & derivatives, Baclofen pharmacology, Brain metabolism, Dopamine metabolism, GABA-B Receptor Agonists pharmacology, GABA-B Receptor Antagonists pharmacology, Male, Mice, Mice, Knockout, Nucleus Accumbens drug effects, Nucleus Accumbens metabolism, Prefrontal Cortex drug effects, Prefrontal Cortex metabolism, Proto-Oncogene Proteins c-fos drug effects, Proto-Oncogene Proteins c-fos metabolism, Receptors, GABA-B genetics, Receptors, Nicotinic drug effects, Receptors, Nicotinic metabolism, Reward, Serotonin metabolism, Ventral Tegmental Area drug effects, Ventral Tegmental Area metabolism, Brain drug effects, Conditioning, Psychological drug effects, Nicotine pharmacology, Nicotinic Agonists pharmacology, Receptors, GABA-B drug effects

Abstract

It has been demonstrated that GABA B receptors modulate nicotine (NIC) reward effect; nevertheless, the mechanism implicated is not well known. In this regard, we evaluated the involvement of GABA B receptors on the behavioral, neurochemical, biochemical and molecular alterations associated with the rewarding effects induced by NIC in mice, from a pharmacological and genetic approach. NIC-induced rewarding properties (0.5 mg/kg, subcutaneously, sc) were evaluated by conditioned place preference (CPP) paradigm. CPP has three phases: preconditioning, conditioning and postconditioning. GABA B receptor antagonist 2-hydroxysaclofen (0.25, 0.5 and 1 mg/kg; intraperitoneally, ip) or the GABA B receptor agonist baclofen (3 mg/kg; ip) was injected before NIC during the conditioning phase. GABA B1 knockout (GABA B1 KO) mice received NIC during the conditioning phase. Vehicle and wild-type controls were employed. Neurochemical (dopamine, serotonin and their metabolites), biochemical (nicotinic receptor α4β2, α4β2nAChRs) and molecular (c-Fos) alterations induced by NIC were analyzed after the postconditioning phase by high-performance liquid chromatography (HPLC), receptor-ligand binding assays and immunohistochemistry, respectively, in nucleus accumbens (Acb), prefrontal cortex (PFC) and ventral tegmental area (VTA). NIC induced rewarding effects in the CPP paradigm and increased dopamine levels in Acb and PFC, α4β2nAChRs density in VTA and c-Fos expression in Acb shell (AcbSh), VTA and PFC. We showed that behavioral, neurochemical, biochemical and molecular alterations induced by NIC were prevented by baclofen. However, in 2-hydroxysaclofen pretreated and GABA B1 KO mice, these alterations were potentiated, suggesting that GABA B receptor activity is necessary to control alterations induced by NIC-induced rewarding effects. Therefore, the present findings provided important contributions to the mechanisms implicated in NIC-induced rewarding effects., (© 2017 Society for the Study of Addiction.)

Published

2018

4. GABBR1 and SLC6A1, Two Genes Involved in Modulation of GABA Synaptic Transmission, Influence Risk for Alcoholism: Results from Three Ethnically Diverse Populations.

Author

Enoch MA, Hodgkinson CA, Shen PH, Gorodetsky E, Marietta CA, Roy A, and Goldman D

Subjects

Adult, Alleles, Case-Control Studies, Female, Finland, Genetic Predisposition to Disease, Haplotypes, Humans, Male, Middle Aged, Phenotype, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Protective Factors, Quinolines metabolism, Sulfonamides metabolism, Synaptic Transmission genetics, Black or African American genetics, Alcoholism genetics, GABA Plasma Membrane Transport Proteins genetics, Indians, North American genetics, Receptors, GABA-B genetics, White People genetics

Abstract

Background: Animal and human studies indicate that GABBR1, encoding the GABAB1 receptor subunit, and SLC6A1, encoding the neuronal gamma-aminobutyric acid (GABA) transporter GAT1, play a role in addiction by modulating synaptic GABA. Therefore, variants in these genes might predict risk/resilience for alcoholism., Methods: This study included 3 populations that differed by ethnicity and alcoholism phenotype: African American (AA) men: 401 treatment-seeking inpatients with single/comorbid diagnoses of alcohol and drug dependence, 193 controls; Finnish Caucasian men: 159 incarcerated alcoholics, half with comorbid antisocial personality disorder, 181 controls; and a community sample of Plains Indian (PI) men and women: 239 alcoholics, 178 controls. Seven GABBR1 tag single nucleotide polymorphisms were genotyped in the AA and Finnish samples; rs29220 was genotyped in the PI for replication. Also, a uniquely African, functional SLC6A1 insertion promoter polymorphism (IND) was genotyped in the AAs., Results: We found a significant and congruent association between GABBR1 rs29220 and alcoholism in all 3 populations. The major genotype (heterozygotes in AAs, Finns) and the major allele in PIs were significantly more common in alcoholics. Moreover, SLC6A1 IND was more abundant in controls, that is, the major genotype predicted alcoholism. An analysis of combined GABBR1 rs29220 and SLC6A1 IND genotypes showed that rs29220 heterozygotes, irrespective of their IND status, had an increased risk for alcoholism, whereas carriers of the IND allele and either rs29220 homozygote were more resilient., Conclusions: Our results show that with both GABBR1 and SLC6A1, the minor genotypes/alleles were protective against risk for alcoholism. Finally, GABBR1 rs29220 might predict treatment response/adverse effects for baclofen, a GABAB receptor agonist., (Copyright © 2016 by the Research Society on Alcoholism. This article has been contributed to by US Government employees and their work is in the public domain in the USA.)

Published

2016

5. Expression of GABA receptors subunits in peripheral blood mononuclear cells is gender dependent, altered in pregnancy and modified by mental health.

Author

Bhandage AK, Hellgren C, Jin Z, Olafsson EB, Sundström-Poromaa I, and Birnir B

Subjects

Adult, Depression diagnosis, Depression psychology, Female, Genetic Markers, Humans, Male, Pregnancy, Protein Subunits, Sex Factors, Solute Carrier Family 12, Member 2 genetics, Symporters genetics, Young Adult, Depression genetics, Leukocytes, Mononuclear chemistry, Mental Health, RNA, Messenger analysis, Receptors, GABA-A genetics, Receptors, GABA-B genetics

Abstract

Aim: The concept of nerve-driven immunity recognizes a link between the nervous and the immune system. γ-aminobutyric acid (GABA) is the main inhibitory neurotransmitter in the brain, and receptors activated by GABA can be expressed by immune cells. Here, we examined whether the expression of GABA receptors and chloride transporters in human peripheral blood mononuclear cells (PBMCs) was influenced by gender, pregnancy or mental health., Methods: We used RT-qPCR to determine the mRNA expression level in PBMCs from men (n = 16), non-pregnant women (n = 19), healthy pregnant women (n = 27) and depressed pregnant women (n = 15)., Results: The ρ2 subunit had the most prominent expression level of the GABA-A receptor subunits in all samples. The δ and ρ2 subunits were up-regulated by pregnancy, whereas the ε subunit was more frequently expressed in healthy pregnant women than non-pregnant women who, in turn, commonly expressed the α6 and the γ2 subunits. The β1 and ε subunits expression was altered by depression in pregnant women. The GABA-B1 receptor was up-regulated by depression in pregnant women, while the transporters NKCC1 and KCC4 were down-regulated by pregnancy. The changes recorded in the mRNA expression levels imply participation of GABA receptors in establishing and maintaining tolerance in pregnancy. Importantly, the correlation of mental health with the expression of specific receptor subunits reveals a connection between the immune cells and the brain. Biomarkers for mental health may be identified in PBMCs., Conclusion: The results demonstrate the impact gender, pregnancy and mental health have on the expression of GABA receptors and chloride transporters expressed in human PBMCs., (© 2014 Scandinavian Physiological Society. Published by John Wiley & Sons Ltd.)

Published

2015

6. Large candidate gene association study reveals genetic risk factors and therapeutic targets for fibromyalgia.

Author

Smith SB, Maixner DW, Fillingim RB, Slade G, Gracely RH, Ambrose K, Zaykin DV, Hyde C, John S, Tan K, Maixner W, and Diatchenko L

Subjects

Adult, Aged, Alleles, Case-Control Studies, Female, GTP-Binding Proteins genetics, Gene Frequency, Genetic Association Studies, Genotype, Humans, Middle Aged, Receptors, G-Protein-Coupled genetics, Receptors, GABA-B genetics, Fibromyalgia genetics, Genetic Predisposition to Disease, Polymorphism, Single Nucleotide

Abstract

Objective: Fibromyalgia (FM) represents a complex disorder that is characterized by widespread pain and tenderness and is frequently accompanied by additional somatic and cognitive/affective symptoms. Genetic risk factors are known to contribute to the etiology of the syndrome. The aim of this study was to examine >350 genes for association with FM, using a large-scale candidate gene approach., Methods: The study group comprised 496 patients with FM (cases) and 348 individuals with no chronic pain (controls). Genotyping was performed using a dedicated gene array chip, the Pain Research Panel, which assays variants characterizing >350 genes known to be involved in the biologic pathways relevant to nociception, inflammation, and mood. Association testing was performed using logistic regression., Results: Significant differences in allele frequencies between cases and controls were observed for 3 genes: GABRB3 (rs4906902; P = 3.65 × 10(-6)), TAAR1 (rs8192619; P = 1.11 × 10(-5)), and GBP1 (rs7911; P = 1.06 × 10(-4)). These 3 genes and 7 other genes with suggestive evidence for association were examined in a second, independent cohort of patients with FM and control subjects who were genotyped using the Perlegen 600K platform. Evidence of association in the replication cohort was observed for TAAR1, RGS4, CNR1, and GRIA4., Conclusion: Variation in these 4 replicated genes may serve as a basis for development of new diagnostic approaches, and the products of these genes may contribute to the pathophysiology of FM and represent potential targets for therapeutic action., (Copyright © 2012 by the American College of Rheumatology.)

Published

2012

7. Identification and characterization of Cs(+) -permeable K(+) channel current in mouse cerebellar Purkinje cells in lobules 9 and 10 evoked by molecular layer stimulation.

Author

Ishii H, Nakajo K, Yanagawa Y, and Kubo Y

Subjects

Animals, CHO Cells, Cell Culture Techniques, Cell Line, Transformed, Cerebellum anatomy & histology, Cerebellum drug effects, Cerebellum metabolism, Cesium antagonists & inhibitors, Cricetinae, Cricetulus, Electric Stimulation methods, G Protein-Coupled Inwardly-Rectifying Potassium Channels antagonists & inhibitors, GABA-B Receptor Antagonists pharmacology, Mice, Mice, Inbred C57BL, Oocytes physiology, Phosphinic Acids pharmacology, Potassium Channel Blockers pharmacology, Potassium Channels, Tandem Pore Domain genetics, Potassium Channels, Tandem Pore Domain metabolism, Potassium Channels, Tandem Pore Domain physiology, Propanolamines pharmacology, Receptors, GABA-B genetics, Receptors, GABA-B metabolism, Receptors, GABA-B physiology, Synaptic Potentials drug effects, Xenopus, Cerebellum physiology, Cesium physiology, Purkinje Cells physiology, Synaptic Potentials physiology

Abstract

The mouse cerebellum consists of 10 lobules, which are distinguishable by their anatomical and functional properties. However, the differences in the slow postsynaptic currents (sPSCs) of Purkinje cells between lobules have not been well studied. We recorded the sPSCs of lobules 3, 9 and 10 evoked by tetanic stimulation of the molecular layer in cerebellar slices, and found a novel outward sPSC mediated by the GABA(B) receptor in loblues 9 and 10 but hardly at all in lobule 3. We showed that the lobule-specific difference is at least partly attributable to differences in the density of GABAergic neurons (higher in lobule 10 than in lobules 3 and 9), and the functional expression level of postsynaptic GABA(B) receptor currents (larger in lobules 9 and 10 than in lobule 3). The G-protein-coupled inward rectifying K(+) channel (GIRK) is known to be activated by GABA(B) receptors; however, the outward sPSC was not blocked by a GIRK blocker, was not sensitive to Cs(+) block, and was observed when Cs(+) was used as a charge carrier. These results suggest that a K(+) channel other than GIRK could be activated by GABA(B) receptors. KCNK13 is a Cs(+)-permeable K(+) channel that shows intense expression of mRNA in Purkinje cells. KCNK13 current was enhanced by co-expression of G(βγ) subunits and was observed when Cs(+) was used as a charge carrier in heterologous expression systems, and the amino acids critical for these features were identified by mutagenesis. Taken together, these results show that KCNK13 is a legitimate candidate for the Cs(+)-permeable K(+) channel activated by GABA(B) receptors, presumably via G(βγ) subunits in Purkinje cells., (© 2010 The Authors. European Journal of Neuroscience © 2010 Federation of European Neuroscience Societies and Blackwell Publishing Ltd.)

Published

2010

8. Identification of a novel region of the GABA(B2) C-terminus that regulates surface expression and neuronal targeting of the GABA(B) receptor.

Author

Pooler AM, Gray AG, and McIlhinney RA

Subjects

Amino Acid Sequence genetics, Analysis of Variance, Animals, COS Cells, Cell Line, Transformed, Chlorocebus aethiops, Humans, Luminescent Proteins genetics, Mutation physiology, Protein Multimerization physiology, Protein Structure, Tertiary physiology, Protein Subunits genetics, Protein Transport physiology, Receptors, GABA-B genetics, Transfection methods, Gene Expression Regulation, Protein Subunits metabolism, Receptors, GABA-B chemistry, Receptors, GABA-B metabolism

Abstract

GABA(B) is a G protein-coupled receptor composed of two subunits, GABA(B1) and GABA(B2). GABA(B1) contains an endoplasmic reticulum-retention sequence and is trafficked to the cell surface only in association with GABA(B2). To determine whether the C-terminus of GABA(B2) regulates GABA(B) trafficking, we constructed forms of GABA(B2) with various C-terminal truncations and examined their surface expression. Truncation of GABA(B2) after residue 841 significantly reduced surface expression of both the subunit and the heterodimerized receptor. Turnover of the Delta841 construct, however, did not differ from that of full-length GABA(B2). To determine whether the C-terminus of GABA(B2) might target GABA(B) to neurites, cultured hippocampal neurons were transfected with the truncated GABA(B2) constructs. Truncation of GABA(B2) at residue 841 resulted in primarily somatic localization; furthermore, axonal trafficking of this construct was significantly more restricted than dendritic trafficking. Finally, to biochemically assess trafficking of the truncated GABA(B2) constructs, we digested transfected HEK293 cell lysates with endoglycosidase H. When GABA(B2) was truncated at residue 841, it became sensitive to digestion by this enzyme, indicating incomplete trafficking. Taken together, these data show that the region of the GABA(B2) C-terminus between residues 841 and 862 is important for regulating forward trafficking and neuronal targeting of the GABA(B) receptor.

Published

2009

9. Multiple functions of GABA A and GABA B receptors during pattern processing in the zebrafish olfactory bulb.

Author

Tabor R, Yaksi E, and Friedrich RW

Subjects

Animals, Baclofen metabolism, Calcium metabolism, Food, GABA Agonists metabolism, GABA Antagonists metabolism, Neural Pathways anatomy & histology, Neural Pathways physiology, Neurons cytology, Neurons metabolism, Odorants, Olfactory Bulb cytology, Organophosphorus Compounds metabolism, Patch-Clamp Techniques, Pyridazines metabolism, Receptors, GABA-A genetics, Receptors, GABA-B genetics, Zebrafish anatomy & histology, Zebrafish physiology, Olfactory Bulb metabolism, Receptors, GABA-A metabolism, Receptors, GABA-B metabolism, Smell physiology

Abstract

gamma-Aminobutyric acid (GABA)ergic synapses are thought to play pivotal roles in the processing of activity patterns in the olfactory bulb (OB), but their functions have been difficult to study during odor responses in the intact system. We pharmacologically manipulated GABA(A) and GABA(B) receptors in the OB of zebrafish and analysed the effects on odor responses of the output neurons, the mitral cells (MCs), by electrophysiological recordings and temporally deconvolved two-photon Ca2+ imaging. The blockade of GABA(B) receptors enhanced presynaptic Ca2+ influx into afferent axon terminals, and changed the amplitude and time course of a subset of MC responses, indicating that GABA(B) receptors have a modulatory influence on OB output activity. The blockade of GABA(A) receptors induced epileptiform firing, enhanced excitatory responses and abolished fast oscillations in the local field potential. Moreover, the topological reorganization and decorrelation of MC activity patterns during the initial phase of the response was perturbed. These results indicate that GABA(A) receptor-containing circuits participate in the balance of excitation and inhibition, the regulation of total OB output activity, the synchronization of odor-dependent neuronal ensembles, and the reorganization of odor-encoding activity patterns. GABA(A) and GABA(B) receptors are therefore differentially involved in multiple functions of neuronal circuits in the OB.

Published

2008

10. The polymorphism GABABR1 T1974C[rs29230] of the GABAB receptor gene is not associated with the diagnosis of alcoholism or alcohol withdrawal seizures.

Author

Köhnke M, Schick S, Lutz U, Köhnke A, Vonthein R, Kolb W, and Batra A

Subjects

Adult, Alleles, Female, Genotype, Humans, Male, Severity of Illness Index, Alcoholism diagnosis, Alcoholism genetics, Ethanol adverse effects, Polymorphism, Genetic genetics, Receptors, GABA-B genetics, Seizures etiology, Substance Withdrawal Syndrome complications, Substance Withdrawal Syndrome etiology

Abstract

As the inhibitory neurotransmitter gamma aminobutyric acid (GABA) modulates ethanol consumption, alcohol withdrawal symptoms and seizure generation by interacting with the GABAB receptor, the genes encoding for the GABAB receptor can be considered as candidate genes for alcoholism and alcohol withdrawal seizures (AWS). As the polymorphism GABABR1 T1974C[rs29230] of the GABAB receptor gene had been associated with alcoholism and EEG abnormalities in prior studies, the present examination investigated if the polymorphism is associated with the diagnosis of alcoholism or AWS. After genotyping the allele and genotype frequencies of a group of alcoholics with a history of AWS (n = 69) were compared with the results of a group of alcoholics with only mild withdrawal symptoms (n = 97). Additionally a group of healthy controls (n = 101) was compared with individuals with the diagnosis of alcoholism (n = 220). As no significant differences were found between the compared groups, this study gave no further evidence for GABABR1 T1974C[rs29230] as a candidate for alcoholism or AWS.

Published

2006

11. Factors mediating alcohol craving and relapse: stress, compulsivity, and genetics.

Author

Rodd ZA, Anstrom KK, Knapp DJ, Racz I, Zimmer A, Serra S, Bell RL, Woodward DJ, Breese GR, and Colombo G

Subjects

Alcohol Drinking genetics, Alcohol Drinking psychology, Alcoholism rehabilitation, Animals, Arousal drug effects, Arousal genetics, Humans, Mice, Mice, Knockout, Rats, Receptor, Cannabinoid, CB1 genetics, Receptors, GABA-B genetics, Recurrence, Selection, Genetic, Stress, Psychological complications, Alcoholism genetics, Alcoholism psychology, Drive, Motivation

Published

2005

12. Evidence for the gamma-amino-butyric acid type B receptor 1 (GABBR1) gene as a susceptibility factor in obsessive-compulsive disorder.

Author

Zai G, Arnold P, Burroughs E, Barr CL, Richter MA, and Kennedy JL

Subjects

Adult, Alleles, Family Health, Female, Gene Frequency, Genotype, Haplotypes, Humans, Linkage Disequilibrium, Male, Middle Aged, Obsessive-Compulsive Disorder psychology, Polymorphism, Genetic, Genetic Predisposition to Disease genetics, Obsessive-Compulsive Disorder genetics, Receptors, GABA-B genetics

Abstract

Obsessive-compulsive disorder (OCD) is a well-recognized severe neuropsychiatric illness. Genetic factors are believed to be important etiologically. Although historically genetic testing has focused on the serotonergic and dopaminergic systems, there is increasing evidence that the major inhibitory neurotransmitter, gamma-aminobutyric acid (GABA), may also be functionally involved. Furthermore the GABA type B receptor 1 (GABBR1) gene has been localized to chromosome 6p21.3 region, which has shown linkage to OCD. We investigated five polymorphisms (A-7265G substitution; C10497G substitution; A33795G substitution in the 3'-UTR; Ser-491-Ser-T1473C transition; Phe-659-Phe-T1977C transition) in the GABBR1 gene in a sample of 159 DSM-IV OCD probands and their families, using the transmission disequilibrium test (TDT). A trend was observed with an over-transmission of -7265A allele at the A-7265G polymorphism and OCD (chi2 = 3.270, P = 0.071). Moreover, the TDT haplotype analysis using TRANSMIT showed a trend toward association with the haplotype of the five polymorphisms together [2.1.1.2.1 (A-7265G.C10497G.Ser-491-Ser.Phe-659-Phe.A33795G)] with a Chi-square value of 3.418, which corresponds to a P-value of 0.065 (overall chi2 = 6.353, 5 df, P = 0.273). Moreover, a trend was observed for the total Yale-Brown obsessive-compulsive scale score in the A-7265G polymorphism (-7265A: z = 1.934, P = 0.053) using the Family-Based Association Test, considering the diagnosis of OCD and then the clinically relevant quantitative phenotypes. The observed trends suggest that further investigations of the role of the GABBR1 gene in OCD are warranted., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

13. Characterization of breakpoints in the GABRG3 and TSPY genes in a family with a t(Y;15)(p11.2;q12).

Author

Gole L, Crolla JA, Thomas SN, Jacobs PA, and Dennis NR

Subjects

Adolescent, Aged, Aged, 80 and over, Cell Cycle Proteins, Child, Developmental Disabilities diagnosis, Developmental Disabilities genetics, Female, Humans, Hypogonadism genetics, Karyotyping, Male, Middle Aged, Pedigree, Phenotype, Prader-Willi Syndrome diagnosis, Prader-Willi Syndrome genetics, Receptors, GABA-A, Sex-Determining Region Y Protein, Chromosome Breakage, Chromosomes, Human, Pair 15 genetics, Chromosomes, Human, Y genetics, DNA-Binding Proteins genetics, Nuclear Proteins genetics, Receptors, GABA-B genetics, Transcription Factors genetics, Translocation, Genetic genetics

Abstract

We report the clinical, cytogenetic, and molecular findings in a family in which a t(Y;15)(p11.2;q12) is segregating. The Y chromosome breakpoint disrupts the DYZ5 sequence containing the TSPY genes that are exclusively expressed in the testes while the chromosome 15 breakpoint is within the GABRG3 gene. The father and his son who both carried the balanced form of the translocation are clinically normal. A daughter who carried the der Y had the clinical features of Prader-Willi syndrome while a son who carries the der 15 has mild developmental delay and hypogonadism. The relationship of the translocation to the clinical phenotypes is discussed., (Copyright 2003 Wiley-Liss, Inc.)

Published

2004

14. Specific gamma-hydroxybutyrate-binding sites but loss of pharmacological effects of gamma-hydroxybutyrate in GABA(B)(1)-deficient mice.

Author

Kaupmann K, Cryan JF, Wellendorph P, Mombereau C, Sansig G, Klebs K, Schmutz M, Froestl W, van der Putten H, Mosbacher J, Bräuner-Osborne H, Waldmeier P, and Bettler B

Subjects

4-Butyrolactone pharmacokinetics, Adjuvants, Anesthesia pharmacology, Animals, Anticonvulsants pharmacokinetics, Autoradiography, Baclofen pharmacology, Behavior, Animal drug effects, Benzocycloheptenes pharmacokinetics, Body Weight drug effects, Brain anatomy & histology, Brain drug effects, Brain metabolism, Cell Membrane drug effects, Cell Membrane metabolism, Chromatography, High Pressure Liquid, Dihydroxyphenylalanine metabolism, Dose-Response Relationship, Drug, Drug Interactions, Electrochemistry, Electroencephalography, GABA-B Receptor Agonists, Guanosine 5'-O-(3-Thiotriphosphate) pharmacokinetics, Mice, Mice, Inbred BALB C, Mice, Knockout, Motor Activity drug effects, Organophosphorus Compounds pharmacokinetics, Phenols pharmacokinetics, Radioligand Assay, Receptors, GABA-B deficiency, Receptors, GABA-B genetics, Time Factors, gamma-Aminobutyric Acid pharmacology, Binding, Competitive, Receptors, GABA-B metabolism, Sodium Oxybate pharmacology

Abstract

gamma-Hydroxybutyrate (GHB), a metabolite of gamma-aminobutyric acid (GABA), is proposed to function as a neurotransmitter or neuromodulator. gamma-Hydroxybutyrate and its prodrug, gamma-butyrolactone (GBL), recently received increased public attention as they emerged as popular drugs of abuse. The actions of GHB/GBL are believed to be mediated by GABAB and/or specific GHB receptors, the latter corresponding to high-affinity [3H]GHB-binding sites coupled to G-proteins. To investigate the contribution of GABAB receptors to GHB actions we studied the effects of GHB in GABAB(1)-/- mice, which lack functional GABAB receptors. Autoradiography reveals a similar spatial distribution of [3H]GHB-binding sites in brains of GABAB(1)-/- and wild-type mice. The maximal number of binding sites and the KD values for the putative GHB antagonist [3H]6,7,8,9-tetrahydro-5-hydroxy-5H-benzocyclohept-6-ylidene acetic acid (NCS-382) appear unchanged in GABAB(1)-/- compared with wild-type mice, demonstrating that GHB- are distinct from GABAB-binding sites. In the presence of the GABAB receptor positive modulator 2,6-di-tert-butyl-4-(3-hydroxy-2,2-dimethyl-propyl)-phenol GHB induced functional GTPgamma[35S] responses in brain membrane preparations from wild-type but not GABAB(1)-/- mice. The GTPgamma[35S] responses in wild-type mice were blocked by the GABAB antagonist [3-[[1-(S)-(3,4dichlorophenyl)ethyl]amino]-2-(S)-hydroxy-propyl]-cyclohexylmethyl phosphinic acid hydrochloride (CGP54626) but not by NCS-382. Altogether, these findings suggest that the GHB-induced GTPgamma[35S] responses are mediated by GABAB receptors. Following GHB or GBL application, GABAB(1)-/- mice showed neither the hypolocomotion, hypothermia, increase in striatal dopamine synthesis nor electroencephalogram delta-wave induction seen in wild-type mice. It, therefore, appears that all studied GHB effects are GABAB receptor dependent. The molecular nature and the signalling properties of the specific [3H]GHB-binding sites remain elusive.

Published

2003

15. Association of EEG coherence and an exonic GABA(B)R1 gene polymorphism.

Author

Winterer G, Smolka M, Samochowiec J, Ziller M, Mahlberg R, Gallinat J, Rommelspacher HP, Herrmann WM, and Sander T

Subjects

Adult, Analysis of Variance, Cortical Synchronization, Female, Gene Frequency, Genotype, Humans, Male, Phenotype, Electroencephalography, Exons, Polymorphism, Genetic, Receptors, GABA-B genetics

Abstract

The GABA(B) receptor 1 gene is mapped to chromosome 6p21.3 within the HLA class I region close to the HLA-F gene. Susceptibility loci for epilepsy and schizophrenia have been mapped in this region. Based on pharmacological evidence, it has been suggested that GABA(B) receptors may play a crucial role in the synchronization of EEG oscillations, which in turn can be abnormal in neuropsychiatric disorders. In the present study, the hypothesis was tested, whether three exonic variants of the gene encoding the human GABA(B) receptor (GABA(B)R1) modify cortical synchronization measured as scalp-recorded EEG-coherence. Two principal components of EEG coherence (frontal coherence, parietotemporal coherence) were investigated in 104 healthy subjects during three conditions: resting EEG, activated EEG, and event-related EEG. No significant associations were found between the frontal coherence component and any polymorphism or between the parietotemporal coherence component and the exon 1a1 polymorphism. However, parietotemporal coherence showed statistically highly significant associations across all three experimental conditions with exon 7 and trend associations with exon 11. The results provide evidence that the translated polymorphism of exon 7 may be functionally meaningful and impact cortical EEG oscillations. Since variations of EEG coherence have been described for several neuropsychiatric disorders, the present association should be tested in clinical samples using EEG coherence as an intermediate phenotype., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

16. Cloning and functional expression of GABA(B) receptors from Drosophila.

Author

Mezler M, Müller T, and Raming K

Subjects

Adenylyl Cyclase Inhibitors, Animals, Cell Line, Central Nervous System enzymology, Cloning, Molecular, Cyclic AMP metabolism, GABA Antagonists pharmacology, GTP-Binding Proteins metabolism, Ganglia, Invertebrate enzymology, Gene Expression Regulation, Developmental, Humans, Insect Proteins genetics, Kidney cytology, Molecular Sequence Data, Oocytes physiology, Organophosphorus Compounds pharmacology, Phosphinic Acids pharmacology, Phylogeny, Potassium Channels metabolism, Propanolamines pharmacology, Sequence Homology, Amino Acid, Xenopus, gamma-Aminobutyric Acid pharmacology, Drosophila melanogaster genetics, Potassium Channels, Inwardly Rectifying, Receptors, GABA-B genetics

Abstract

The neurotransmitter GABA (gamma-aminobutyric acid) functions as the major inhibitory neurotransmitter in the central nervous system of vertebrates and invertebrates. In vertebrates GABA signals both through ionotropic receptors (GABA(A), GABA(C)), which induce fast synaptic inhibitory responses, and through metabotropic receptors (GABA(B)), which play a fundamental role in the reduction of presynaptic transmitter release and postsynaptic inhibitory potentials. Whilst GABA(A) and GABA(C) receptors have been cloned from vertebrates as well as invertebrates, GABA(B) receptors have only been identified in vertebrate species to date, although indirect evidence suggests their existence in arthropods, too. Here we report the cloning of three putative invertebrate GABA(B) receptor subtypes (D-GABA(B)R1, R2 and R3) isolated from Drosophila melanogaster. Whilst D-GABA(B)R1 and R2 show high sequence identity to mammalian GABA(B)R1 and R2, respectively, the receptor D-GABA(B)R3 seems to be an insect-specific subtype with no known mammalian counterpart so far. All three D-GABA(B)R subtypes are expressed in the embryonic central nervous system. In situ hybridization of Drosophila melanogaster embryos shows that two of the D-GABA(B)Rs (D-GABA(B)R1 and R2) are expressed in similar regions, suggesting a coexpression of the two receptors, whilst the third D-GABA(B)R (D-GABA(B)R3) displays a unique expression pattern. In agreement with these results we have only been able to functionally characterize D-GABA(B)R1 and R2 when the two subtypes are coexpressed either in Xenopus laevis oocytes or mammalian cell lines, whilst D-GABA(B)R3 was inactive in any combination. The pharmacology of the coexpressed D-GABA(B)R1/2 receptor was different from the mammalian GABA(B)Rs: e.g. baclofen, an agonist of mammalian GABA(B)Rs, showed no effect.

Published

2001

17. GABAB receptor protein and mRNA distribution in rat spinal cord and dorsal root ganglia.

Author

Towers S, Princivalle A, Billinton A, Edmunds M, Bettler B, Urban L, Castro-Lopes J, and Bowery NG

Subjects

Animals, Baclofen pharmacology, Benzoates pharmacology, Dimerization, GABA Agonists pharmacology, Ganglia, Spinal chemistry, Gene Expression physiology, In Situ Hybridization, Isomerism, Male, Organophosphorus Compounds pharmacology, RNA, Messenger analysis, Radioligand Assay, Rats, Receptors, GABA-B analysis, Receptors, GABA-B chemistry, Receptors, Presynaptic analysis, Receptors, Presynaptic chemistry, Receptors, Presynaptic genetics, Spinal Cord chemistry, Tritium, Ganglia, Spinal physiology, Receptors, GABA-B genetics, Spinal Cord physiology

Abstract

The presence of metabotropic receptors for GABA, GABAB, on primary afferent terminals in mammalian spinal cord has been previously reported. In this study we provide further evidence to support this in the rat and show that the GABAB receptor subunits GABAB1 and GABAB2 mRNA and the corresponding subunit proteins are present in the spinal cord and dorsal root ganglion. We also show that the predominant GABAB1 receptor subunit mRNA present in the afferent fibre cell body appears to be the 1a form. In frozen sections of lumbar spinal cord and dorsal root ganglia (DRG) GABAB receptors were labelled with [3H]CGP 62349 or the sections postfixed with paraformaldehyde and subjected to in situ hybridization using oligonucleotides designed to selectively hybridize with the mRNA for GABAB(1a), GABAB(1b) or GABAB2. For immunocytochemistry (ICC), sections were obtained from rats anaesthetized and perfused-fixed with paraformaldehyde. The distribution of binding sites for [3H]CGP 62349 mirrored that previously observed with [3H]GABA at GABAB sites. The density of binding sites was high in the dorsal horn but much lower in the ventral regions. By contrast, the density of mRNA (pan) was more evenly distributed across the laminae of the spinal cord. The density of mRNA detected with the pan probe was high in the DRG and distributed over the neuron cell bodies. This would accord with GABAB receptor protein being formed in the sensory neurons and transported to the primary afferent terminals. Of the GABAB1 mRNA in the DRG, approximately 90% was of the GABAB(1a) form and approximately 10% in the GABAB(1b) form. This would suggest that GABAB(1a) mRNA may be responsible for encoding presynaptic GABAB receptors on primary afferent terminals in a manner similar to that we have previously observed in the cerebellar cortex. GABAB2 mRNA was also evenly distributed across the spinal cord laminae at densities equivalent to those of GABAB1 in the dorsal horn. GABAB2 mRNA was also detected to the same degree within the DRG. Immunocytochemical analysis revealed that GABAB(1a), GABAB(1b) and GABAB2 were all present in the spinal cord. GABAB(1a) labelling appeared to be more dense than GABAB(1b) and within the superficial dorsal horn GABAB(1a) was present in the neuropil whereas GABAB(1b) was associated with cell bodies in this region. Both 1a and 1b immunoreactivity was expressed in motor neurons in lamina IX. GABAB2 immunoreactivity was expressed throughout the spinal cord and was evident within the neuropil of the superficial laminae.

Published

2000

18. Alternative splicing generates a novel isoform of the rat metabotropic GABA(B)R1 receptor.

Author

Pfaff T, Malitschek B, Kaupmann K, Prézeau L, Pin JP, Bettler B, and Karschin A

Subjects

Amino Acid Sequence genetics, Animals, Base Sequence genetics, Brain metabolism, Cell Line, GTP-Binding Proteins metabolism, Humans, In Situ Hybridization, Male, Molecular Sequence Data, Oocytes, Protein Isoforms genetics, Protein Isoforms metabolism, Rats, Rats, Wistar, Receptors, GABA-B metabolism, Tissue Distribution physiology, Xenopus laevis, Alternative Splicing, Receptors, GABA-B genetics

Abstract

Here we present a novel isoform of the metabotropic G-protein-coupled receptor for gamma-aminobutyric acid (GABA). The isoform, termed GABA(B)R1c (R1c), differs from the recently identified R1a and R1b receptors by an in-frame insertion of 31 amino acids between the second extracellular loop and the fifth transmembrane region. Analysis of the rat GABA(B)R1 gene demonstrates that the insertion is the result of an alternative splicing event within a 567-bp intron between exons 16 and 17. In situ hybridization in the rat brain shows a wide distribution of R1c transcripts and an overlap with the R1a and R1b transcripts. The highest mRNA levels are found in cerebellar Purkinje cells, cerebral cortex, thalamus and hippocampal CA1 and CA3 regions. Western blots and immunodetection of recombinant epitope-tagged receptors as well as [125I]CGP71872 photoaffinity labelling of cell membranes demonstrate that R1c is correctly expressed, although at a lower level than the previously identified isoforms. When coexpressed with the newly characterized GABA(B)R2, R1c functionally couples to G-protein-activated Kir3.1/3.2 channels in Xenopus oocytes and to PLC-activating chimeric G(alpha)qo subunits in HEK-293 cells with a similar EC50 for agonists. These data suggest that the R1c isoform represents a functional GABA(B)R in the rat brain.

Published

1999

19. GABAB-receptor splice variants GB1a and GB1b in rat brain: developmental regulation, cellular distribution and extrasynaptic localization.

Author

Fritschy JM, Meskenaite V, Weinmann O, Honer M, Benke D, and Mohler H

Subjects

Animals, Azides pharmacology, Blotting, Western, Brain growth & development, Cell Membrane chemistry, Cell Membrane ultrastructure, Dendrites chemistry, Dendrites ultrastructure, GABA Antagonists pharmacology, Guinea Pigs, Microscopy, Electron, Organophosphorus Compounds pharmacology, Purkinje Cells physiology, Purkinje Cells ultrastructure, Rabbits, Rats, Rats, Sprague-Dawley, Receptors, GABA-B metabolism, Synapses chemistry, Synapses ultrastructure, Synaptic Transmission drug effects, Synaptic Transmission physiology, Taurine metabolism, gamma-Aminobutyric Acid physiology, Brain Chemistry physiology, Purkinje Cells chemistry, RNA Splicing physiology, Receptors, GABA-B analysis, Receptors, GABA-B genetics

Abstract

GABAB (gamma-aminobutyric acid)-receptors have been implicated in central nervous system (CNS) functions, e.g. cognition and pain perception, and dysfunctions including spasticity and absence epilepsy. To permit an analysis of the two known GABAB-receptor splice variants GABAB-R1a (GB1a) and GABAB-R1b (GB1b), their distribution pattern has been differentiated in the rat brain, using Western blotting and immunohistochemistry with isoform-specific antisera. During postnatal maturation, the expression of the two splice variants was differentially regulated with GB1a being preponderant at birth. In adult brain, GB1b-immunoreactivity (-IR) was predominant, and the two isoforms largely accounted for the pattern of GABAB-receptor binding sites in the brain. Receptor heterogeneity was pronounced in the hippocampus, where both isoforms occurred in CA1, but only GB1b in CA3. Similarly, in the cerebellum, GB1b was exclusively found in Purkinje cells in a zebrin-like pattern. The staining was most pronounced in Purkinje cell dendrites and spines. Using electron microscopy, over 80% of the spine profiles in which a synaptic contact with a parallel fibre was visible contained GB1b-IR at extrasynaptic sites. This subcellular localization is unrelated to GABAergic inputs, indicating that the role of GABAB-receptors in vivo extends beyond synaptic GABAergic neurotransmission and may, in the cerebellum, involve taurine as a ligand.

Published

1999

20. Expression of gamma-aminobutyric acid(A) receptor subunits in the vestibular system.

Author

Rezaee A, Robinson AM, and Pitovski DZ

Subjects

Animals, Base Sequence, DNA Primers genetics, DNA, Complementary genetics, Male, Molecular Sequence Data, Neurons, Afferent physiology, RNA, Messenger genetics, Rats, Rats, Sprague-Dawley, Receptors, GABA-B genetics, Receptors, GABA-B metabolism, Reverse Transcriptase Polymerase Chain Reaction methods, Up-Regulation genetics, Gene Expression genetics, Receptors, GABA-A genetics, Receptors, GABA-A metabolism, Vestibule, Labyrinth metabolism

Abstract

Objectives: Profile the expression of genes encoding GABAA receptor subunits in the vestibular end organs of a rat., Materials and Methods: Using a combination of reverse transcription followed by polymerase chain reaction (PCR) with gene-specific primers, expression of mRNAs encoding 13 individual GABA(A) receptor subunits was examined., Results: PCR amplification products representing subunit gene expression for alpha1-6, beta1-3, and gamma1-3, but not for delta, subunits were amplified, suggesting multiple molecular levels of regulation of vestibular GABA(A) receptor expression. Nucleotide sequencing confirmed the identity of rat vestibular end-organs subunit cDNAs., Conclusion: These results give the most direct evidence to date that GABAA receptors composed of the detected subunits are expressed in the mammalian vestibular system, giving new support to previous investigations implicating GABA as a vestibular neurotransmitter.

Published

1999