前额叶皮层的阿尔法/德尔塔开关控制着从积极情感状态到消极情感状态的转变。

Jeffrey S Burgdorf, Joseph R Moskal
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摘要

大鼠的积极和消极情绪状态可以通过研究超声发声来研究。大鼠的积极影响通过50kHz的享乐性USV来索引,而消极影响通过22kHz的厌恶性叫声来索引。我们使用内侧前额叶皮层(MPFC)定量脑电图(qEEG)研究了大鼠情绪状态的关系,发现享乐性USV与活跃的觉醒qEEG(高α/低δ功率)有关,厌恶性USV发生在朦胧的觉醒q脑电图(低α/高δ)。此外,MPFC的α频率电刺激诱导享乐呼叫和寻求奖励行为,而δ频率刺激产生厌恶呼叫和回避行为。负责产生USVs运动输出的大脑区域,即中脑导水管周围灰质(PAG),显示出一种运动诱发电位,该电位在时间上锁定于α(享乐)和δ(厌恶)运动诱发电位。闭环α频率电刺激可以预防delta qEEG和厌恶性USVs。在神经元回路水平上,α节律与皮层的突触长时程增强(LTP)有关,而δ节律与皮层中的突触去电位(LTD)有关。在药理学水平上,NMDAR和生长因子调节调节这些形式的神经可塑性。在单神经元水平上,兴奋性神经元对α频率的反应表现出增加的活性,而对δ频率的反应则表现出减少的活性。在人类中,快乐的感觉增加了额叶头皮qEEG中的α功率,降低了δ功率,而悲伤则出现了相反的反应。因此,通过负责情绪表达的神经元回路,α/δ振荡的同步协调了情绪行为,并且在主动觉醒/积极影响和朦胧觉醒/消极影响之间的切换是在LTP-LTD突触可塑性机制的控制下进行的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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A prefrontal cortex alpha/delta switch controls the transition from positive to negative affective states.

Positive and negative emotional states in rats can be studied by investigating ultrasonic vocalizations (USVs). Positive affect in rats is indexed by 50 kHz hedonic USVs, and negative affect is indexed by 22 kHz aversive calls. We examined the relationship of emotional states in rats using medial prefrontal cortex (MPFC) quantitative electroencephalograms (qEEG) and found that hedonic USVs were associated with active wake qEEG (high alpha/low delta power), and aversive USVs occurred with groggy wake qEEG (low alpha/high delta). Further, alpha frequency electrical stimulation of the MPFC induces hedonic calls and reward-seeking behavior, whereas delta frequency stimulation produces aversive calls and avoidance behavior. The brain region responsible for generating motor output for USVs, the periaqueductal gray (PAG), shows a motor-evoked potential that is temporally locked to the alpha (hedonic) and delta (aversive) motor-evoked potential. Closed-loop alpha frequency electrical stimulation could prevent delta qEEG and aversive USVs. At the neuronal circuit level, the alpha rhythm was associated with synaptic long-term potentiation (LTP) in the cortex, whereas the delta rhythm was associated with synaptic depotentiation (LTD) in the cortex. At the pharmacological level, NMDAR and growth factor modulation regulated these forms of neuroplasticity. At the single neuron level, excitatory neurons show increased activity in response to alpha frequencies and decreased activity during delta frequencies. In humans, the feeling of joy increased alpha and decreased delta power in frontal scalp qEEG, and the opposite response was seen for sadness. Thus, the synchronization of alpha/delta oscillations through the neuronal circuit responsible for emotional expression coordinates emotional behavior, and the switch between active wake/positive affect and groggy wake/negative affect is under the control of an LTP- LTD synaptic plasticity mechanism.

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