Department of Pharmacology, University of Pennsylvania, Philadelphia, PA, USA.
Neuroscience. 2011 May 5;181:109-16. doi: 10.1016/j.neuroscience.2011.02.049. Epub 2011 Mar 4.
We previously described a role for adrenergic signaling in the hippocampus to promote contextual and spatial memory retrieval. A subsequent study performing expression analysis of the immediate-early gene (IEG) Arc suggested that activation of CA1 but not CA3 pyramidal neurons during memory retrieval is impaired in the absence of NE. The current study sought to confirm and extend those observations by performing expression analysis of a second IEG product, Fos, following a much greater variety of testing conditions. In mutant mice lacking NE, induction of Fos was normal in all regions of the hippocampus and amygdala shortly after fear conditioning. In contrast, when testing contextual fear 1 day after training, induction of Fos in CA1 and the central nucleus of the amygdala (CeA), but not CA3, the dentate gyrus or other amygdaloid nuclei, was impaired in the mutant mice. This pattern corresponded to the memory retrieval deficit exhibited by these mice. On the other hand, induction was normal in CA1 and CeA when testing cued fear 1 day after training, or contextual fear 1 week or 1 month after training, conditions in which retrieval are normal in the absence of NE. Acute restoration of NE in the mutant mice before testing but not before training rescued retrieval of contextual fear and restored Fos induction in CA1 and CeA. Because NE facilitates retrieval through the activation of β(1)-adrenergic receptors, β(1) knockout mice were also examined and found to exhibit reduced induction of Fos in CA1 and CeA following retrieval. Based on these and previous results, we hypothesize that adrenergic signaling is critical for the full activation of CA1 pyramidal neurons in response to excitatory input from CA3 pyramidal neurons conveying retrieved contextual information.
我们之前描述了去甲肾上腺素(adrenergic signaling)在海马体中发挥的作用,该作用能够促进情景和空间记忆的提取。随后的一项研究通过对即时早期基因(IEG)Arc 的表达分析表明,在缺乏去甲肾上腺素的情况下,记忆提取过程中 CA1 而非 CA3 锥体神经元的激活受到损害。本研究试图通过在更多不同的测试条件下,对第二个 IEG 产物 Fos 的表达分析来证实和扩展这些观察结果。在缺乏去甲肾上腺素的突变小鼠中,在恐惧条件反射后不久,海马体和杏仁核的所有区域中 Fos 的诱导都正常。相比之下,当在训练后 1 天测试情景恐惧时,突变小鼠中 CA1 和杏仁核中央核(CeA)而非 CA3、齿状回或其他杏仁核核的 Fos 诱导受损,这与这些小鼠表现出的记忆提取缺陷相对应。另一方面,当在训练后 1 天测试条件性恐惧或训练后 1 周或 1 个月测试情景性恐惧时,诱导在 CA1 和 CeA 中是正常的,在缺乏去甲肾上腺素的情况下,这些条件下的提取是正常的。在测试前而非在训练前急性恢复突变小鼠中的去甲肾上腺素挽救了情景恐惧的提取,并恢复了 CA1 和 CeA 中的 Fos 诱导。由于去甲肾上腺素通过激活β(1)-肾上腺素能受体促进提取,因此还检查了β(1)敲除小鼠,发现它们在提取后 CA1 和 CeA 中的 Fos 诱导减少。基于这些和以前的结果,我们假设去甲肾上腺素信号对于 CA1 锥体神经元对来自 CA3 锥体神经元的兴奋性输入(传递提取的情景信息)的完全激活是至关重要的。
