Nagy Szilvia Anett, Vranesics Anett, Varga Zsófia, Csabai Dávid, Bruszt Nóra, Bali Zsolt Kristóf, Perlaki Gábor, Hernádi István, Berente Zoltán, Miseta Attila, Dóczi Tamás, Czéh Boldizsár
Neurobiology of Stress Research Group, Szentágothai Research Centre, University of Pécs, Pécs, Hungary.
MTA-PTE, Clinical Neuroscience MR Research Group, Pécs, Hungary.
Front Neurosci. 2020 Jun 3;14:474. doi: 10.3389/fnins.2020.00474. eCollection 2020.
Stress-induced cellular changes in limbic brain structures contribute to the development of various psychopathologies. detection of these microstructural changes may help us to develop objective biomarkers for psychiatric disorders. Diffusion tensor imaging (DTI) is an advanced neuroimaging technique that enables the non-invasive examination of white matter integrity and provides insights into the microstructure of pathways connecting brain areas. Our aim was to examine the temporal dynamics of stress-induced structural changes with repeated DTI scans and correlate them with behavioral alterations. Out of 32 young adult male rats, 16 were exposed to daily immobilization stress for 3 weeks. Four DTI measurements were done: one before the stress exposure (), two scans during the stress ( and phases), and a last one 2 weeks after the end of the stress protocol (). We used a 4.7T small-animal MRI system and examined 18 gray and white matter structures calculating the following parameters: fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (AD), and radial diffusivity (RD). T2-weighted images were used for volumetry. Cognitive performance and anxiety levels of the animals were assessed in the Morris water maze, novel object recognition, open field, and elevated plus maze tests. Reduced FA and increased MD and RD values were found in the corpus callosum and external capsule of stressed rats. Stress increased RD in the anterior commissure and reduced MD and RD in the amygdala. We observed time-dependent changes in several DTI parameters as the rats matured, but we found no evidence of stress-induced volumetric alterations in the brains. Stressed rats displayed cognitive impairments and we found numerous correlations between the cognitive performance of the animals and between various DTI metrics of the inferior colliculus, corpus callosum, anterior commissure, and amygdala. Our data provide further support to the translational value of DTI studies and suggest that chronic stress exposure results in similar white matter microstructural alterations that have been documented in stress-related psychiatric disorders. These DTI findings imply microstructural abnormalities in the brain, which may underlie the cognitive deficits that are often present in stress-related mental disorders.
应激诱导的边缘脑区细胞变化会导致各种精神病理学的发展。检测这些微观结构变化可能有助于我们开发针对精神疾病的客观生物标志物。扩散张量成像(DTI)是一种先进的神经成像技术,能够对白质完整性进行非侵入性检查,并深入了解连接脑区的神经通路的微观结构。我们的目的是通过重复进行DTI扫描来检查应激诱导的结构变化的时间动态,并将其与行为改变相关联。在32只成年雄性大鼠中,16只每天接受固定应激3周。进行了四次DTI测量:一次在应激暴露前(),两次在应激期间(和阶段),最后一次在应激方案结束后2周()。我们使用4.7T小动物MRI系统,检查了18个灰质和白质结构,计算以下参数:各向异性分数(FA)、平均扩散率(MD)、轴向扩散率(AD)和径向扩散率(RD)。T2加权图像用于体积测量。在莫里斯水迷宫、新物体识别、旷场和高架十字迷宫试验中评估动物的认知表现和焦虑水平。在应激大鼠的胼胝体和外囊中发现FA降低,MD和RD增加。应激使前连合的RD增加,杏仁核的MD和RD降低。随着大鼠成熟,我们观察到几个DTI参数随时间的变化,但未发现应激诱导大脑体积改变的证据。应激大鼠表现出认知障碍,我们发现动物的认知表现与下丘、胼胝体前连合和杏仁核的各种DTI指标之间存在许多相关性。我们的数据进一步支持了DTI研究的转化价值,并表明慢性应激暴露会导致与应激相关的精神疾病中所记录的类似白质微观结构改变。这些DTI结果暗示大脑存在微观结构异常,这可能是应激相关精神障碍中经常出现的认知缺陷的基础。
