大脑广泛的电时空动力学编码抑郁易感性。
Brain-wide Electrical Spatiotemporal Dynamics Encode Depression Vulnerability.
机构信息
Department of Psychiatry and Behavioral Sciences, Duke University Medical Center, Durham, NC 27710, USA.
Department of Electrical and Computer Engineering, Duke University, Durham, NC 22208, USA.
出版信息
Cell. 2018 Mar 22;173(1):166-180.e14. doi: 10.1016/j.cell.2018.02.012.
Abstract
Brain-wide fluctuations in local field potential oscillations reflect emergent network-level signals that mediate behavior. Cracking the code whereby these oscillations coordinate in time and space (spatiotemporal dynamics) to represent complex behaviors would provide fundamental insights into how the brain signals emotional pathology. Using machine learning, we discover a spatiotemporal dynamic network that predicts the emergence of major depressive disorder (MDD)-related behavioral dysfunction in mice subjected to chronic social defeat stress. Activity patterns in this network originate in prefrontal cortex and ventral striatum, relay through amygdala and ventral tegmental area, and converge in ventral hippocampus. This network is increased by acute threat, and it is also enhanced in three independent models of MDD vulnerability. Finally, we demonstrate that this vulnerability network is biologically distinct from the networks that encode dysfunction after stress. Thus, these findings reveal a convergent mechanism through which MDD vulnerability is mediated in the brain.
摘要
大脑局部场电位振荡的全脑波动反映了介导行为的新兴网络水平信号。破解这些振荡在时间和空间上协调(时空动力学)以表示复杂行为的密码,将为理解大脑如何发出情绪病理信号提供基本的见解。使用机器学习,我们发现了一个时空动态网络,该网络可以预测慢性社交挫败应激后小鼠出现与重度抑郁症(MDD)相关的行为功能障碍。该网络中的活动模式源自前额叶皮层和腹侧纹状体,通过杏仁核和腹侧被盖区中继,然后汇聚在腹侧海马体。急性威胁会增加这个网络,而在三个独立的 MDD 易感性模型中,这个网络也会增强。最后,我们证明了这个易损性网络与应激后功能障碍的网络在生物学上是不同的。因此,这些发现揭示了 MDD 易感性在大脑中被介导的收敛机制。
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