[No authors listed]
BACKGROUND:The 5-hydroxytryptamine 1B receptor (5-HT1B) plays an essential role in the serotonin (5-HT) system and is widely involved in a variety of brain activities. HTR1B is the gene encoding 5-HT1B. Genome-wide association studies have shown that HTR1B polymorphisms are closely related to multiple mental and behavioral disorders; however, the functional mechanisms underlying these associations are unknown. This study investigated the effect of several HTR1B haplotypes on regulation of gene expression in vitro and the functional sequences in the 5' regulatory region of HTR1B to determine their potential association with mental and behavioral disorders. METHODS:Six haplotypes consisting of rs4140535, rs1778258, rs17273700, rs1228814, rs11568817, and rs130058 and several truncated fragments of the 5' regulatory region of HTR1B were transfected into SK-N-SH and HEK-293 cells. The relative fluorescence intensities of the different haplotypes and truncated fragments were detected using a dual-luciferase reporter assay system. RESULTS:Compared to the major haplotype T-G-T-C-T-A, the relative fluorescence intensities of haplotypes C-A-T-C-T-A, C-G-T-C-T-A, C-G-C-A-G-T, and C-G-T-A-T-A were significantly lower, and that of haplotype C-G-C-A-G-A was significantly higher. Furthermore, the effects of the rs4140535T allele, the rs17273700C-rs11568817G linkage combination, and the rs1228814A allele made their relative fluorescence intensities significantly higher than their counterparts at each locus. Conversely, the rs1778258A and rs130058T alleles decreased the relative fluorescence intensities. In addition, we found that regions from -â1587 to -â1371âbp (TSS, +â1), -â1149 to -â894âbp, -â39 to +â130âbp, +â130 to +â341âbp, andâ+â341 to +â505âbp upregulated gene expression. In contrast, regions -â603 to -â316âbp andâ+â130 to +â341âbp downregulated gene expression. Region +â341 to +â505âbp played a decisive role in gene transcription. CONCLUSIONS:HTR1B 5' regulatory region polymorphisms have regulatory effects on gene expression and potential correlate with several pathology and physiology conditions. This study suggests that a crucial sequence for transcription is located in region +â341â~â+â505âbp. Regions -â1587 to -â1371âbp, -â1149 to -â894âbp, -â603 to -â316âbp, -â39 to +â130âbp, andâ+â130 to +â341âbp contain functional sequences that can promote or suppress the HTR1B gene expression.
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