慢性应激通过小电导钙激活钾通道下调导致杏仁核神经元的投射特异性适应。
Chronic Stress Causes Projection-Specific Adaptation of Amygdala Neurons via Small-Conductance Calcium-Activated Potassium Channel Downregulation.
机构信息
Laboratory of Fear and Anxiety Disorders, Institutes of Life Science, Nanchang University, Nanchang, China.
Human Aging Research Institute, School of Life Science, Nanchang University, Nanchang, China.
出版信息
Biol Psychiatry. 2019 May 15;85(10):812-828. doi: 10.1016/j.biopsych.2018.12.010. Epub 2018 Dec 20.
BACKGROUND
The role of the amygdala in mediating stress coping has been long appreciated. However, basolateral amygdala (BLA) projection neurons (PNs) are organized into discrete output circuits, and it remains unclear whether stress differentially impacts these circuits.
METHODS
Mice were exposed to acute restraint stress or chronic restraint stress (CRS), and c-fos expression was measured as a proxy for neuronal activation in Retrobead retrogradely labeled dorsomedial prefrontal cortex-targeting PNs (BLA→dmPFC) and non-dmPFC-targeting PNs (BLA↛dmPFC). Next, the effects of CRS on neuronal firing and membrane potassium channel current were examined via ex vivo electrophysiology in these neuronal populations and correlated with anxiety-like behavior, as measured in the elevated plus maze and novel open field tests. Lastly, the ability of virus-mediated overexpression of subtype 2 of small-conductance, calcium-activated potassium (SK2) channel in BLA↛dmPFC PNs to negate the anxiety-related effects of CRS was assessed.
RESULTS
BLA→dmPFC PNs were transiently activated after CRS, whereas BLA↛dmPFC showed sustained c-fos expression and augmented firing to external input. CRS led to a loss of SK2 channel-mediated currents in BLA↛dmPFC PNs, which correlated with heightened anxiety-like behavior. Virus-mediated maintenance of SK2 channel currents in BLA↛dmPFC PNs prevented CRS-induced anxiety-like behavior. Finally, CRS produced persistent activation of BLA PNs targeting the ventral hippocampus, and virally overexpressing SK2 channels in this projection population were sufficient to prevent CRS-induced anxiety-like behavior.
CONCLUSIONS
The current data reveal that chronic stress produces projection-specific functional adaptations in BLA PNs. These findings offer new insight into the neural circuits that contribute to stress-induced psychopathology.
背景
杏仁核在介导应激应对方面的作用早已被人们所认识。然而,基底外侧杏仁核 (BLA) 的投射神经元 (PNs) 组织成离散的输出回路,目前尚不清楚应激是否会对这些回路产生不同的影响。
方法
将小鼠暴露于急性束缚应激或慢性束缚应激 (CRS) 中,以 c-fos 表达作为逆行标记的背内侧前额皮质靶向 BLA 投射神经元 (BLA→dmPFC) 和非 dmPFC 靶向 PNs (BLA↛dmPFC) 神经元激活的替代指标进行测量。接下来,通过离体电生理学方法在这些神经元群体中检查 CRS 对神经元放电和膜钾通道电流的影响,并与高架十字迷宫和新旷场测试中测量的焦虑样行为相关联。最后,评估 BLA↛dmPFC PNs 中病毒介导的小电导、钙激活钾 (SK2) 通道亚型 2 的过表达是否能够消除 CRS 的焦虑相关效应。
结果
CRS 后 BLA→dmPFC PNs 短暂激活,而 BLA↛dmPFC 则表现出持续的 c-fos 表达和对外源性刺激的增强放电。CRS 导致 BLA↛dmPFC PNs 中 SK2 通道介导的电流丧失,这与焦虑样行为的加剧相关。病毒介导的 BLA↛dmPFC PNs 中 SK2 通道电流的维持可防止 CRS 诱导的焦虑样行为。最后,CRS 导致靶向腹侧海马的 BLA PNs 持续激活,而在该投射群体中病毒过表达 SK2 通道足以防止 CRS 诱导的焦虑样行为。
结论
目前的数据揭示了慢性应激会导致 BLA PNs 产生特定投射的功能适应。这些发现为导致应激相关精神病理学的神经回路提供了新的见解。
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