Kerfoot Erin C, Williams Cedric L
Division of Neuroscience and Behavior, Department of Psychology, University of Virginia, Charlottesville, VA, United States.
Front Pharmacol. 2018 Feb 2;9:47. doi: 10.3389/fphar.2018.00047. eCollection 2018.
The nucleus accumbens shell is a site of converging inputs during memory processing for emotional events. The accumbens receives input from the nucleus of the solitary tract (NTS) regarding changes in peripheral autonomic functioning following emotional arousal. The shell also receives input from the amygdala and hippocampus regarding affective and contextual attributes of new learning experiences. The successful encoding of affect or context is facilitated by activating noradrenergic systems in either the amygdala or hippocampus. Recent findings indicate that memory enhancement produced by activating NTS neurons, is attenuated by suppressing accumbens functioning after learning. This finding illustrates the significance of the shell in integrating information from the periphery to modulate memory for arousing events. However, it is not known if the accumbens shell plays an equally important role in consolidating information that is initially processed in the amygdala and hippocampus. The present study determined if the convergence of inputs from these limbic regions within the nucleus accumbens contributes to successful encoding of emotional events into memory. Male Sprague-Dawley rats received bilateral cannula implants 2 mm above the accumbens shell and a second bilateral implant 2 mm above either the amygdala or hippocampus. The subjects were trained for 6 days to drink from a water spout. On day 7, a 0.35 mA footshock was initiated as the rat approached the spout and was terminated once the rat escaped into a white compartment. Subjects were then given intra-amygdala or hippocampal infusions of PBS or a dose of norepinephrine (0.2 μg) previously shown to enhance memory. Later, all subjects were given intra-accumbens infusion of muscimol to functionally inactivate the shell. Muscimol inactivation of the accumbens shell was delayed to allow sufficient time for norepinephrine to activate intracellular cascades that lead to long-term synaptic modifications involved in forming new memories. Results show that memory improvement produced by infusing norepinephrine in either the amygdala or hippocampus is attenuated by interrupting neuronal activity in the shell 1 or 7 7 h following amygdala or hippocampus activation. These findings suggest that the accumbens shell plays an integral role modulating information initially processed by the amygdala and hippocampus following exposure to emotionally arousing events. Additionally, results demonstrate that the accumbens is involved in the long-term consolidation processes lasting over 7 h.
伏隔核壳是情绪事件记忆处理过程中汇聚输入信息的部位。伏隔核接收来自孤束核(NTS)的关于情绪唤醒后外周自主功能变化的输入信息。伏隔核壳还接收来自杏仁核和海马体的关于新学习经历的情感和情境属性的输入信息。激活杏仁核或海马体中的去甲肾上腺素能系统有助于情感或情境的成功编码。最近的研究结果表明,激活NTS神经元所产生的记忆增强作用,在学习后通过抑制伏隔核功能而减弱。这一发现说明了伏隔核壳在整合来自外周的信息以调节对唤醒事件的记忆方面的重要性。然而,尚不清楚伏隔核壳在巩固最初在杏仁核和海马体中处理的信息方面是否发挥同样重要的作用。本研究确定了来自这些边缘区域的输入信息在伏隔核内的汇聚是否有助于将情绪事件成功编码到记忆中。雄性Sprague-Dawley大鼠在伏隔核壳上方2毫米处接受双侧套管植入,并在杏仁核或海马体上方2毫米处接受第二次双侧植入。对这些实验对象进行为期6天的训练,使其从一个饮水口饮水。在第7天,当大鼠靠近饮水口时启动0.35毫安的足部电击,一旦大鼠逃进一个白色隔间,电击就终止。然后给实验对象在杏仁核或海马体内注入磷酸盐缓冲盐水(PBS)或一剂先前已证明能增强记忆的去甲肾上腺素(0.2微克)。之后,给所有实验对象在伏隔核内注入蝇蕈醇,以使伏隔核壳功能失活。伏隔核壳的蝇蕈醇失活被延迟,以便有足够的时间让去甲肾上腺素激活细胞内级联反应,从而导致参与形成新记忆的长期突触修饰。结果表明,在杏仁核或海马体中注入去甲肾上腺素所产生的记忆改善,在杏仁核或海马体激活后1或7小时通过中断伏隔核壳中的神经元活动而减弱。这些发现表明,伏隔核壳在调节最初由杏仁核和海马体在暴露于情绪唤醒事件后处理的信息方面发挥着不可或缺的作用。此外,结果表明伏隔核参与了持续超过7小时的长期巩固过程。
