Your search keyword '"GABRB3"' showing total 14 results

1. Mechanisms underlying the EEG biomarker in Dup15q syndrome

Author

Frohlich, Joel, Reiter, Lawrence T, Saravanapandian, Vidya, DiStefano, Charlotte, Huberty, Scott, Hyde, Carly, Chamberlain, Stormy, Bearden, Carrie E, Golshani, Peyman, Irimia, Andrei, Olsen, Richard W, Hipp, Joerg F, and Jeste, Shafali S

Subjects

Medical Physiology, Biomedical and Clinical Sciences, Intellectual and Developmental Disabilities (IDD), Pediatric, Autism, Genetics, Neurosciences, Brain Disorders, Mental Health, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Adult, Biomarkers, Child, Chromosome Aberrations, Chromosomes, Human, Pair 15, Cohort Studies, Electroencephalography, Fathers, Female, Humans, Intellectual Disability, Male, Midazolam, Phenotype, Receptors, GABA-A, Dup15q syndrome, GABA, UBE3A, EEG, Neurodevelopmental disorders, GABRA5, GABRB3, GABRG3, Clinical Sciences, Clinical sciences, Biological psychology

Abstract

BackgroundDuplications of 15q11.2-q13.1 (Dup15q syndrome), including the paternally imprinted gene UBE3A and three nonimprinted gamma-aminobutyric acid type-A (GABAA) receptor genes, are highly penetrant for neurodevelopmental disorders such as autism spectrum disorder (ASD). To guide targeted treatments of Dup15q syndrome and other forms of ASD, biomarkers are needed that reflect molecular mechanisms of pathology. We recently described a beta EEG phenotype of Dup15q syndrome, but it remains unknown which specific genes drive this phenotype.MethodsTo test the hypothesis that UBE3A overexpression is not necessary for the beta EEG phenotype, we compared EEG from a reference cohort of children with Dup15q syndrome (n = 27) to (1) the pharmacological effects of the GABAA modulator midazolam (n = 12) on EEG from healthy adults, (2) EEG from typically developing (TD) children (n = 14), and (3) EEG from two children with duplications of paternal 15q (i.e., the UBE3A-silenced allele).ResultsPeak beta power was significantly increased in the reference cohort relative to TD controls. Midazolam administration recapitulated the beta EEG phenotype in healthy adults with a similar peak frequency in central channels (f = 23.0 Hz) as Dup15q syndrome (f = 23.1 Hz). Both paternal Dup15q syndrome cases displayed beta power comparable to the reference cohort.ConclusionsOur results suggest a critical role for GABAergic transmission in the Dup15q syndrome beta EEG phenotype, which cannot be explained by UBE3A dysfunction alone. If this mechanism is confirmed, the phenotype may be used as a marker of GABAergic pathology in clinical trials for Dup15q syndrome.

Published

2019

2. Beyond Epilepsy and Autism: Disruption of GABRB3 Causes Ocular Hypopigmentation

Author

Ryan J. Delahanty, Yanfeng Zhang, Terry Jo Bichell, Wangzhen Shen, Kelienne Verdier, Robert L. Macdonald, Lili Xu, Kelli Boyd, Janice Williams, and Jing-Qiong Kang

Subjects

GABAA receptors, GABRB3, OCA2, UBE3A, deletion, epilepsy, autism, eye, hypopigmentation, Angelman syndrome, Biology (General), QH301-705.5

Abstract

Reduced ocular pigmentation is common in Angelman syndrome (AS) and Prader-Willi syndrome (PWS) and is long thought to be caused by OCA2 deletion. GABRB3 is located in the 15q11-13 region flanked by UBE3A, GABRA5, GABRG3, and OCA2. Mutations in GABRB3 have frequently been associated with epilepsy and autism, consistent with its role in neurodevelopment. We report here a robust phenotype in the mouse in which deletion of Gabrb3 alone causes nearly complete loss of retinal pigmentation due to atrophied melanosomes, as evidenced by electron microscopy. Using exome and RNA sequencing, we confirmed that only the Gabrb3 gene was disrupted while the Oca2 gene was intact. However, mRNA abundance of Oca2 and other genes adjacent to Gabrb3 is substantially reduced in Gabrb3−/− mice, suggesting complex transcriptional regulation in this region. These results suggest that impairment in GABRB3 downregulates OCA2 and indirectly causes ocular hypopigmentation and visual defects in AS and PWS.

Published

2016

3. Meta-analysis of GABRB3 Gene Polymorphisms and Susceptibility to Autism Spectrum Disorder.

Author

Noroozi, Rezvan, Taheri, Mohammad, Ghafouri-Fard, Soudeh, Bidel, Zeinab, Omrani, Mir Davood, Moghaddam, Ali Sanjari, Sarabi, Parisa, and Jarahi, Alireza Mosavi

Abstract

Several lines of evidence have suggested that the GABA receptor subunit β3 (GABRB3) gene is a genetic contributor in the autism spectrum disorder (ASD). The aberrant expression of GABRB3 is reported in ASD patients which may be a consequence of the presence of certain genetic variants in the promoter region of the gene. The associations between single-nucleotide polymorphisms (SNPs) within this gene and ASD have been analyzed in previous studies. However, the results are conflicting. In the present study, we performed a meta-analysis on association between two SNPs located in the promoter region of GABRB3 gene (rs4906902 and rs20317) and ASD. The literature search was performed based on criteria provided by the meta-analysis of observational studies in epidemiology (MOOSE). The association between mentioned SNPs and ASD was calculated using pooled odd ratios (ORs) and 95% confidence intervals. The result of the present meta-analysis indicates that neither rs4906902 nor rs20317 are significantly associated with the risk of ASD. The underlying mechanism of the aberrant expression of GABRB3 gene in ASD patients should be investigated in other biological levels. [ABSTRACT FROM AUTHOR]

Published

2018

4. Beyond Epilepsy and Autism: Disruption of GABRB3 Causes Ocular Hypopigmentation.

Author

Delahanty, Ryan J., Zhang, Yanfeng, Bichell, Terry Jo, Shen, Wangzhen, Verdier, Kelienne, Macdonald, Robert L., Xu, Lili, Boyd, Kelli, Williams, Janice, and Kang, Jing-Qiong

Abstract

Summary Reduced ocular pigmentation is common in Angelman syndrome (AS) and Prader-Willi syndrome (PWS) and is long thought to be caused by OCA2 deletion. GABRB3 is located in the 15q11-13 region flanked by UBE3A , GABRA5 , GABRG3 , and OCA2 . Mutations in GABRB3 have frequently been associated with epilepsy and autism, consistent with its role in neurodevelopment. We report here a robust phenotype in the mouse in which deletion of Gabrb3 alone causes nearly complete loss of retinal pigmentation due to atrophied melanosomes, as evidenced by electron microscopy. Using exome and RNA sequencing, we confirmed that only the Gabrb3 gene was disrupted while the Oca2 gene was intact. However, mRNA abundance of Oca2 and other genes adjacent to Gabrb3 is substantially reduced in Gabrb3 −/− mice, suggesting complex transcriptional regulation in this region. These results suggest that impairment in GABRB3 downregulates OCA2 and indirectly causes ocular hypopigmentation and visual defects in AS and PWS. [ABSTRACT FROM AUTHOR]

Published

2016

5. Maternal transmission of a rare GABRB3 signal peptide variant is associated with autism.

Author

Delahanty, R. J., Kang, J. Q., Brune, C. W., Kistner, E. O., Courchesne, E., Cox, N. J., Cook,Jr., E. H., Macdonald, R. L., and Sutcliffe, J. S.

Subjects

*BRAIN diseases, *AUTISM, *EPILEPSY, *GENETICS, *GENETIC mutation

Abstract

Maternal 15q11-q13 duplication is the most common copy number variant in autism, accounting for ∼1-3% of cases. The 15q11-q13 region is subject to epigenetic regulation, and genomic copy number losses and gains cause genomic disorders in a parent-of-origin-specific manner. One 15q11-q13 locus encodes the GABAA receptor β3 subunit gene (GABRB3), which has been implicated by several studies in both autism and absence epilepsy, and the co-morbidity of epilepsy in autism is well established. We report that maternal transmission of a GABRB3 signal peptide variant (P11S), previously implicated in childhood absence epilepsy, is associated with autism. An analysis of wild-type and mutant β3 subunit-containing α1β3γ2 or α3β3γ2 GABAA receptors shows reduced whole-cell current and decreased β3 subunit protein on the cell surface due to impaired intracellular β3 subunit processing. We thus provide the first evidence of an association between a specific GABAA receptor defect and autism, direct evidence that this defect causes synaptic dysfunction that is autism relevant and the first maternal risk effect in the 15q11-q13 autism duplication region that is linked to a coding variant. [ABSTRACT FROM AUTHOR]

Published

2011

6. GABAA Receptor Downregulation in Brains of Subjects with Autism.

Author

Fatemi, S., Reutiman, Teri, Folsom, Timothy, and Thuras, Paul

Subjects

*AUTISM, *GABA receptors, *CELL receptors, *NEUROTRANSMITTER receptors, *DEVELOPMENTAL disabilities, *BRAIN

Abstract

Gamma-aminobutyric acid A (GABAA) receptors are ligand-gated ion channels responsible for mediation of fast inhibitory action of GABA in the brain. Preliminary reports have demonstrated altered expression of GABA receptors in the brains of subjects with autism suggesting GABA/glutamate system dysregulation. We investigated the expression of four GABAA receptor subunits and observed significant reductions in GABRA1, GABRA2, GABRA3, and GABRB3 in parietal cortex (Brodmann’s Area 40 (BA40)), while GABRA1 and GABRB3 were significantly altered in cerebellum, and GABRA1 was significantly altered in superior frontal cortex (BA9). The presence of seizure disorder did not have a significant impact on GABAA receptor subunit expression in the three brain areas. Our results demonstrate that GABAA receptors are reduced in three brain regions that have previously been implicated in the pathogenesis of autism, suggesting widespread GABAergic dysfunction in the brains of subjects with autism. [ABSTRACT FROM AUTHOR]

Published

2009

7. No evidence for significant association between GABA receptor genes in chromosome 15q11–q13 and autism in a Japanese population.

Author

Tochigi, Mamoru, Kato, Chieko, Koishi, Shinko, Kawakubo, Yuki, Yamamoto, Kenji, Matsumoto, Hideo, Hashimoto, Ohiko, Soo-Yung Kim, Watanabe, Keiichiro, Kano, Yukiko, Nanba, Eiji, Kato, Nobumasa, and Sasaki, Tsukasa

Subjects

*GABA, *CHROMOSOMES, *AUTISM, *AMINOBUTYRIC acid, *ETIOLOGY of diseases, *MICROSATELLITE repeats

Abstract

The γ-aminobutyric acid (GABA) receptor genes GABRB3, GABRA5, and GABRG3 located on chromosome 15q11–q13 have been major candidates for susceptibility genes for autism, a neurodevelopmental disorder with a complex genetic etiology. In this study, we first investigated the association between the GABA receptor genes and autism in a Japanese population by analyzing 11 single nucleotide polymorphisms (SNPs). Intron 3 of GABRB3 was densely mapped because the previous studies observed the association of the microsatellite 155CA-2 located in the region. We observed no significant difference in allelic frequencies or genotypic distributions of the 11 SNPs between patients and controls. A permutation test showed no significant global differences in estimated haplotype frequencies between patients and controls. Analysis after confining the subjects to males showed similar results. Thus, this study provides no positive evidence of an association between the GABA receptor genes and autism in a Japanese population. However, in a SNP (rs3212337) located near the microsatellite 155CA-2, a significant deviation from the Hardy–Weinberg equilibrium was observed in patients ( p = 0.029, corrected for multiple testing). This finding may suggest further studies around the markers for more definitive conclusions. [ABSTRACT FROM AUTHOR]

Published

2007

8. Beyond Epilepsy and Autism: Disruption of GABRB3 Causes Ocular Hypopigmentation

Author

Lili Xu, Jing-Qiong Kang, Yanfeng Zhang, Kelienne Verdier, Ryan J. Delahanty, Kelli L. Boyd, Wangzhen Shen, Robert L. Macdonald, Janice Williams, and Terry Jo Bichell

Subjects

0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, genetic structures, GABRA5, autism, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Genomic Imprinting, Mice, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Internal medicine, Angelman syndrome, GABRB3, UBE3A, medicine, Animals, Humans, OCA2, Genetic Predisposition to Disease, deletion, Autistic Disorder, lcsh:QH301-705.5, Exome, Hypopigmentation, GABAA receptors, Membrane Transport Proteins, nutritional and metabolic diseases, Receptors, GABA-A, medicine.disease, eye, 030104 developmental biology, Endocrinology, lcsh:Biology (General), Mutation, Cancer research, biology.protein, epilepsy, Autism, medicine.symptom, hypopigmentation, Prader-Willi Syndrome, 030217 neurology & neurosurgery

Abstract

Reduced ocular pigmentation is common in Angelman syndrome (AS) and Prader-Willi syndrome (PWS) and is long thought to be caused by OCA2 deletion. GABRB3 is located in the 15q11-13 region flanked by UBE3A, GABRA5, GABRG3, and OCA2. Mutations in GABRB3 have frequently been associated with epilepsy and autism, consistent with its role in neurodevelopment. We report here a robust phenotype in the mouse in which deletion of Gabrb3 alone causes nearly complete loss of retinal pigmentation due to atrophied melanosomes, as evidenced by electron microscopy. Using exome and RNA sequencing, we confirmed that only the Gabrb3 gene was disrupted while the Oca2 gene was intact. However, mRNA abundance of Oca2 and other genes adjacent to Gabrb3 is substantially reduced in Gabrb3−/− mice, suggesting complex transcriptional regulation in this region. These results suggest that impairment in GABRB3 downregulates OCA2 and indirectly causes ocular hypopigmentation and visual defects in AS and PWS.

Published

2016

9. Mechanisms underlying the EEG biomarker in Dup15q syndrome

Author

Joerg F. Hipp, Joel Frohlich, Carly Hyde, Scott Huberty, Richard W. Olsen, Peyman Golshani, Shafali S. Jeste, Lawrence T. Reiter, Vidya Saravanapandian, Carrie E. Bearden, Stormy J. Chamberlain, Andrei Irimia, and Charlotte DiStefano

Subjects

Male, Autism, Dup15q syndrome, Electroencephalography, Bioinformatics, lcsh:RC346-429, Cohort Studies, Fathers, GABA, 0302 clinical medicine, Receptors, 2.1 Biological and endogenous factors, EEG, Aetiology, Child, GABRG3, Pediatric, 0303 health sciences, biology, medicine.diagnostic_test, Neurodevelopmental disorders, 3. Good health, Psychiatry and Mental health, Phenotype, Mental Health, Autism spectrum disorder, GABRA5, Female, Human, Adult, Midazolam, Intellectual and Developmental Disabilities (IDD), Clinical Sciences, Dup15q, Chromosomes, 03 medical and health sciences, Developmental Neuroscience, Clinical Research, Intellectual Disability, GABRB3, medicine, UBE3A, Genetics, Humans, Molecular Biology, lcsh:Neurology. Diseases of the nervous system, 030304 developmental biology, Chromosome Aberrations, Chromosomes, Human, Pair 15, business.industry, GABA-A, Research, Pair 15, Neurosciences, Receptors, GABA-A, medicine.disease, Brain Disorders, biology.protein, business, Genomic imprinting, 030217 neurology & neurosurgery, Biomarkers, Developmental Biology

Abstract

Background Duplications of 15q11.2-q13.1 (Dup15q syndrome), including the paternally imprinted gene UBE3A and three nonimprinted gamma-aminobutyric acid type-A (GABAA) receptor genes, are highly penetrant for neurodevelopmental disorders such as autism spectrum disorder (ASD). To guide targeted treatments of Dup15q syndrome and other forms of ASD, biomarkers are needed that reflect molecular mechanisms of pathology. We recently described a beta EEG phenotype of Dup15q syndrome, but it remains unknown which specific genes drive this phenotype. Methods To test the hypothesis that UBE3A overexpression is not necessary for the beta EEG phenotype, we compared EEG from a reference cohort of children with Dup15q syndrome (n = 27) to (1) the pharmacological effects of the GABAA modulator midazolam (n = 12) on EEG from healthy adults, (2) EEG from typically developing (TD) children (n = 14), and (3) EEG from two children with duplications of paternal 15q (i.e., the UBE3A-silenced allele). Results Peak beta power was significantly increased in the reference cohort relative to TD controls. Midazolam administration recapitulated the beta EEG phenotype in healthy adults with a similar peak frequency in central channels (f = 23.0 Hz) as Dup15q syndrome (f = 23.1 Hz). Both paternal Dup15q syndrome cases displayed beta power comparable to the reference cohort. Conclusions Our results suggest a critical role for GABAergic transmission in the Dup15q syndrome beta EEG phenotype, which cannot be explained by UBE3A dysfunction alone. If this mechanism is confirmed, the phenotype may be used as a marker of GABAergic pathology in clinical trials for Dup15q syndrome. Electronic supplementary material The online version of this article (10.1186/s13229-019-0280-6) contains supplementary material, which is available to authorized users.

Published

2019

10. The Effect of GABRB3 Polymorphisms on Brain Function and Structure in Healthy Male Volunteers Assessed by Multimodal Imaging

Author

Jorge Andrés Arrubla Martínez, Shah, Nadim, Luxen, André, Neuner, Irene, and RS: FPN CN 2

Subjects

Multimodal imaging, medicine.diagnostic_test, business.industry, multimodal imaging, Magnetic resonance imaging, Human brain, Electroencephalography, medicine.disease, Epilepsy, medicine.anatomical_structure, GABRB3, medicine, Autism, business, Neuroscience, Gene, Brain function

Abstract

The genetic information codified in our DNA defines many features of the human body, and this also includes the structure and functioning of the brain. In this study a gene called “GABRB3” was investigated. This gene is important for epilepsy, autism and genetic disorders. Using magnetic resonance imaging and electroencephalography the study showed that this gene influence areas of the brain relevant for speech, movement and communication between brain sides. The results allow a better understanding of how genes control the human brain and make this gene a strong candidate for future investigations and for possible genetic therapy.

Published

2018

11. Maternal transmission of a rare GABRB3 signal peptide variant is associated with autism

Author

Eric Courchesne, Ryan J. Delahanty, James S. Sutcliffe, Jing-Qiong Kang, Nancy J. Cox, Edwin H. Cook, Robert L. Macdonald, Camille W. Brune, and Emily O. Kistner

Subjects

Male, autism, Genome-wide association study, Polymorphism, Single Nucleotide, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Childhood absence epilepsy, Gene duplication, mental disorders, GABRB3, medicine, CACNA1H, Humans, Heritability of autism, Copy-number variation, Autistic Disorder, Molecular Biology, Germ-Line Mutation, 030304 developmental biology, Genetics, 0303 health sciences, Chromosomes, Human, Pair 15, biology, GABAA receptor, medicine.disease, Receptors, GABA-A, 3. Good health, Pedigree, Developmental disorder, Psychiatry and Mental health, biology.protein, Autism, epilepsy, Female, imprinting, mutation, Neuroscience, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

Maternal 15q11-q13 duplication is the most common copy number variant in autism, accounting for ∼1-3% of cases. The 15q11-q13 region is subject to epigenetic regulation, and genomic copy number losses and gains cause genomic disorders in a parent-of-origin-specific manner. One 15q11-q13 locus encodes the GABA(A) receptor β3 subunit gene (GABRB3), which has been implicated by several studies in both autism and absence epilepsy, and the co-morbidity of epilepsy in autism is well established. We report that maternal transmission of a GABRB3 signal peptide variant (P11S), previously implicated in childhood absence epilepsy, is associated with autism. An analysis of wild-type and mutant β3 subunit-containing α1β3γ2 or α3β3γ2 GABA(A) receptors shows reduced whole-cell current and decreased β3 subunit protein on the cell surface due to impaired intracellular β3 subunit processing. We thus provide the first evidence of an association between a specific GABA(A) receptor defect and autism, direct evidence that this defect causes synaptic dysfunction that is autism relevant and the first maternal risk effect in the 15q11-q13 autism duplication region that is linked to a coding variant.

Published

2009

12. GABAA Receptor Downregulation in Brains of Subjects with Autism

Author

Fatemi, S. Hossein, Reutiman, Teri J., Folsom, Timothy D., and Thuras, Paul D.

Published

2009

13. Molecular analysis of the GABRB3 gene in Autistic patients: An exploratory study

Author

Solís-Añez, Ernesto, Delgado-Luengo, Wilmer, Borjas-Fuentes, Lisbeth, Zabala, William, Arráiz, Nailet, Pineda, Lennie, Portillo, María Gabriela, González-Ferrer, Sandra, Chacín, José Antonio, Peña, Joaquín, Montiel, Cecilia, Morales, Alisandra, Rojas de Atencio, Alicia, Cañizales, Jenny, González, Richard, Miranda, Luis Eduardo, Abreu, Nivia, and Delgado, Juana

Subjects

Autismo, Autism, GABRB3, SNP, mutation, mutación

Abstract

El autismo es un trastorno del desarrollo caracterizado por deterioro de la interacción social, la comunicación, y comportamiento estereotipado. Los estudios de familias y gemelos han demostrado predisposición genética al autismo. Existe evidencia (ligamiento y asociación genética, bioquímica, anatomopatológica, funcional y citogenética) de que el gen de la subunidad β3 del receptor de GABA-A (GABRB3), en 15q11-q13, es un candidato de susceptibilidad al autismo. Con el objetivo de identificar nuevas variantes en este gen, se estudiaron 18 pacientes con autismo idiopático, utilizando un tamizaje de gen candidato. Se realizó el análisis molecular (SSCP/secuenciación) de los 10 exones con sus correspondientes regiones intrónicas flanqueantes. No se identificaron mutaciones no sinónimas en las regiones codificantes, pero se identificaron 4 polimorfismos de nucleótido simple (SNP). El primer SNP representó una mutación silente p.P25P en el exon 1a, encontrada en 33,33% de los pacientes. El Segundo SNP: IVS3+13C > T (a 5 b de la secuencia consenso 5’ del intrón) fue encontrado en 44,44% de los pacientes, mientras que fué identificado en 16.67% de los controles. El 33,33% de los pacientes presentaron simultáneamente ambas variantes, y aunque el 16,67% de los controles también poseían la misma combinación, el 66,66% de los pacientes con esos alelos tenían antecedentes familiares de autismo. El tercer y cuarto SNP: IVS5+40T > G e IVS7-70A > G fueron identificados en dos pacientes diferentes. Ninguno de los 3 últimos SNPs ha sido reportado en la base de datos de SNP (dbSNP). La cercanía del SNP: IVS3+13C > T con la secuencia consenso y de interacción con la nucleorribonucleoproteína U1, pudiera alterar la maduración normal del pre-ARNm, en concordancia con la evidencia de niveles bajos del receptor GABA-A en cerebros de pacientes con autismo, pudiendo entonces tratarse, de una variante común, que por sí sola no causaría un efecto fenotípico, pero que en conjunto con otras variantes en el mismo gen, en genes relacionados o, con cambios epigenéticos, pudieran explicar el fenotipo autista y su gran heterogeneidad. Autism is a complex neurodevelopmental disorder characterized by impairment of social interaction, language, communication, and stereotyped, repetitive behavior. Genetic predisposition to Autism has been demonstrated in families and twin studies. There is evidence (linkage and genetic association, biochemical, neuropathological, functional and cytogenetic) that the gamma-amino-butyric acid receptor beta 3 subunit gene (GABRB3) at 15q11-q13 is a susceptibility candidate gene for Autism. The aim of this exploratory study was to identify new variants of this gene. We performed the molecular analysis (SSCP/Sequencing) of 10 exons and its intronic flanking regions of GABRB3, using a candidate gene screening approach in 18 idiopathic autistic patients. We did not find non-synonymous mutations at the encoding regions, but we identified four SNP (Single Nucleotide Polymorphism). The first one, represented a silent mutation p.P25P in exon 1a and was found in 33.33% of the patients. The second one: IVS3+13C > T (5b far from the intron 5’ consensus sequence), was found in 44.44% of the patients, while it was also identified in 16.67% of the controls. Simultaneously, 33.33% of the patients had both variants, and although, 16.67% of the controls also had the same combination of variants, 66.66% of the patients with those alleles had a familiar history of Autism. The third and fourth SNP: IVS5+40T > G and IVS-70A > G were identified in two different patients. None of the last three SNPs have been reported at the SNP database (dbSNP). The proximity of SNP: IVS3+13C > T with the consensus and interaction sequence with U1 nucleoriboprotein, could disturb the normal splicing of mRNA. This is in agreement with the evidence of lower levels of GABA-A receptors in autistic brains; so, it could be a common variant, that by itself could not cause a phenotypic effect, but joined to other variants with the same gene, in different related genes or with epigenetic changes, could explain the autistic phenotype and its heterogeneity.

Published

2007

14. Genetic analysis of GABRB3 as a candidate gene of autism spectrum disorders

Author

Yen-Nan Chiu, Chia-Hsiang Chen, Yu-Yu Wu, Chia-Chun Huang, Susan Shur-Fen Gau, Wen-Che Tsai, Min-Chih Cheng, and Shih-Kai Liu

Subjects

Candidate gene, Pediatrics, medicine.medical_specialty, Single-nucleotide polymorphism, symbols.namesake, Exon, Developmental Neuroscience, GABRB3, medicine, Genetics, Heritability of autism, Allele, Molecular Biology, Genetic association, Sanger sequencing, business.industry, Research, Rare variants, Autism spectrum disorders, medicine.disease, Psychiatry and Mental health, symbols, Autism, business, Case-control association, Developmental Biology

Abstract

Background GABRB3 is a position candidate gene at chromosome 15q12 that has been implicated in the neurobiology of autism spectrum disorders (ASD). The aim of this study was to examine the genetic association of GABRB3 with ASD. Methods The sample consisted of 356 patients with clinical diagnosis of ASD according to the DSM-IV diagnostic criteria and confirmed by the Autism Diagnostic Interview-Revised and 386 unrelated controls. We searched for mutations at all the exonic regions and 1.6 Kb of the 5′ region of GABRB3 in the genomic DNA of all the participants using the Sanger sequencing. We implemented a case-control association analysis of variants detected in this sample, and conducted a reporter gene assay to assess the functional impact of variants at the 5′ regulatory region. Results We detected six known common SNPs; however, they were not associated with ASD. Besides, a total of 22 rare variants (12 at 5′ regulatory, 4 at intronic, and 6 at exonic regions) were detected in 18 patients and 6 controls. The frequency of rare variants was significantly higher in the patient group than in the control group (18/356 versus 6/386, odds ratio = 3.37, P = 0.007). All the 12 rare variants at the 5′ regulatory region were only detected in 7 patients, but not in any of the controls (7/356 versus 0/386, Fisher’s exact test, P = 0.006). Two patients carried multiple rare variants. Family studies showed that most of these rare variants were transmitted from their parents. Reporter gene assays revealed that four rare variants at the 5′ regulatory region and 1 at exon 1a untranslated region had elevated reporter gene activities compared to two wild type alleles. Conclusions Our data suggest rare variants of GABRB3 might be associated with ASD, and increased GABRB3 expression may contribute to the pathogenesis of ASD in some patients. Trial registration Clinical trial registration Identifier: NCT00494754