500 healthy controls matched for ethnicity and ancestral origin. Key Findings: Highest luciferase expression occurred 230-bp upstream of exon 1A. The construct that excluded this region lost luciferase activity. Therefore, this region contains the core promoter of exon 1A. Allele C but not allele G (rs20317) significantly increased luciferase expression activity. Allele C creates binding motifs for cMYB and EGR-3. Longer constructs overlapping this region have a binding motif for REST (RE1-silencing transcription factor), a critical epigenetic modulator for neuronal genes. REST represses expression of neuronal genes in nonneuronal tissues, resulting in reduced luciferase expression activity. Even in the suppressed condition, the longer construct enhanced luciferase expression activity of the shorter construct, which excluded the distal end containing rs4906902. However, allele frequencies of rs20317 and rs4906902 were not significantly associated with 48 rCAE patients in comparison to >500 controls matched for ethnicity and ancestral origin. Significance: Common SNPs in the promoter region increase luciferase expression activity. An epigenetic modulator, REST, specifically alters expression of GABRB3 exon 1A transcripts, suggesting epigenetic regulation by REST dominantly controls the expression of GABRB3 variant 2 transcript in early life GABA A signaling. Abnormal epigenetic regulation could be involved in absence seizures. © 2012 International League Against Epilepsy.
CITATION STYLE
Tanaka, M., Bailey, J. N., Bai, D., Ishikawa-Brush, Y., Delgado-Escueta, A. V., & Olsen, R. W. (2012). Effects on promoter activity of common SNPs in 5’ region of GABRB3 exon 1A. Epilepsia, 53(8), 1450–1456. https://doi.org/10.1111/j.1528-1167.2012.03572.x
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