遗传型 5-羟色胺缺乏症小鼠模型的皮质杏仁核回路功能障碍。
Cortical-amygdalar circuit dysfunction in a genetic mouse model of serotonin deficiency.
机构信息
Department of Psychiatry and Behavioral Sciences, Duke University Medical Center, Durham, North Carolina 27710, USA.
出版信息
J Neurosci. 2013 Mar 6;33(10):4505-13. doi: 10.1523/JNEUROSCI.4891-12.2013.
Abstract
Although the majority of first-line antidepressants increase brain serotonin and rare polymorphisms in tryptophan hydroxlase-2 (Tph2), the rate-limiting enzyme in the brain serotonin synthesis pathway, have been identified in cohorts of subjects with major depressive disorder, the circuit level alterations that results from serotonergic hypofunction remain poorly understood. Here we use chronic multicircuit neurophysiological recordings to characterize functional interactions across cortical and limbic circuits in mice engineered to express a human loss-of-function depression allele Tph2-(R441H) [Tph2 knockin (Tph2KI)]. Our results show that Tph2KI mice exhibit increased intra-network synchrony within medial prefrontal cortex (mPFC) and basal amygdala (AMY) and increased inter-network synchrony between these two brain networks. Moreover, we demonstrate that chronic treatment with fluoxetine reverses several of the circuit alterations observed within Tph2KI mice. Together, our findings establish a functional link between functional hyposerotonergia and altered mPFC-AMY network dynamics.
摘要
尽管大多数一线抗抑郁药可增加大脑中的血清素,并且在重度抑郁症患者队列中已鉴定出色氨酸羟化酶-2(Tph2)的罕见多态性,该酶是大脑中血清素合成途径的限速酶,但由血清素功能低下引起的回路水平改变仍知之甚少。在这里,我们使用慢性多回路神经生理学记录来描述在表达人类功能丧失性抑郁等位基因 Tph2-(R441H)[Tph2 敲入(Tph2KI)]的小鼠中皮层和边缘回路之间的功能相互作用。我们的结果表明,Tph2KI 小鼠在中间前额叶皮层(mPFC)和基底杏仁核(AMY)内表现出更高的网络内同步性,并且这两个大脑网络之间的网络间同步性增加。此外,我们证明,氟西汀的慢性治疗可逆转 Tph2KI 小鼠中观察到的几种回路改变。总之,我们的发现确立了功能低血清素能与 mPFC-AMY 网络动态改变之间的功能联系。
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