Canli Turhan, Omura Kazufumi, Haas Brian W, Fallgatter Andreas, Constable R Todd, Lesch Klaus Peter
Department of Psychology and Graduate Program in Genetics, Stony Brook University, Stony Brook, NY 11794-2500, USA.
Proc Natl Acad Sci U S A. 2005 Aug 23;102(34):12224-9. doi: 10.1073/pnas.0503880102. Epub 2005 Aug 10.
Prior work has highlighted the role of genetic variation within the repetitive sequence in the transcriptional control region of the serotonin (5-HT) transporter gene (5-HTT, SLC6A4) in modulating amygdala and prefrontal activation to negative emotional stimuli. However, these studies have not explicitly tested the assumption that the control condition (neutral baseline) does not itself produce changes in activation as a function of 5-HTT genotype. Using a fixation baseline condition, we show that variation in 5-HTT genotype is associated with differential activation to negative, positive, and neutral stimuli in limbic, striatal, and cortical regions. We replicate earlier reports of increased amygdala activation to negative, relative to neutral, stimuli, but then show that these differences are driven by decreased activation to neutral stimuli, rather than increased activation to negative stimuli, in carriers of the 5-HTT short allele. Using high-resolution structural images and automated processes to test for brain volume and gray matter density, we further report significant differences, as a function of 5-HTT genotype, in frontal cortical regions, anterior cingulate, and cerebellum. These functional and structural differences suggest a much broader role for 5-HT transport efficiency in brain processes than previously thought. 5-HTT genotype affects neural systems controlling affective, cognitive, and motor processes.
先前的研究强调了血清素(5-羟色胺,5-HT)转运体基因(5-HTT,SLC6A4)转录控制区域内重复序列中的基因变异在调节杏仁核和前额叶对负面情绪刺激的激活方面所起的作用。然而,这些研究并未明确检验以下假设:对照条件(中性基线)本身不会随着5-HTT基因型的变化而产生激活变化。使用注视基线条件,我们发现5-HTT基因型的变异与边缘系统、纹状体和皮质区域对负面、正面和中性刺激的差异激活有关。我们重复了早期的报告,即相对于中性刺激,杏仁核对负面刺激的激活增加,但随后表明,在5-HTT短等位基因携带者中,这些差异是由对中性刺激的激活减少驱动的,而不是由对负面刺激的激活增加驱动的。使用高分辨率结构图像和自动化程序来测试脑容量和灰质密度,我们进一步报告了额叶皮质区域、前扣带回和小脑中存在与5-HTT基因型有关的显著差异。这些功能和结构上的差异表明,5-HT转运效率在大脑过程中的作用比以前认为的要广泛得多。5-HTT基因型会影响控制情感、认知和运动过程的神经系统。