Neurochemical Modulation of the Hippocampus in Learning, Remembering and Forgetting in Primates

R.M. Ridley, J.A. Harder, H.F. Baker
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引用次数: 9

Abstract

Information about the outside world is carried into the hippocampus by glutamatergic pyramidal cell pathways from the posterior association cortex via the subiculum. Processed information is carried away from the hippocampus by a reciprocal glutamatergic pathway back into posterior association cortex. These pathways are thought to be crucial for the acquisition of long term memories although it seems likely that memories are stored in cortex rather than within the hippocampus. The hippocampus is supported by functionally excitatory cholinergic modulation via fornical afferents and by functionally inhibitory serotonergic modulation specifically via 5HT1Areceptors. Cholinergic modulation of the hippocampus is necessary for efficient acquisition of visuospatial tasks but not for retention of similar tasks first acquired prior to surgery. Cholinergic modulation of areas outside the hippocampus may contribute to the maintenance of memories and non-cholinergic efferents in the fornix may be required for retrieval of tasks first learnt when the hippocampus was intact. Impairments on acquisition of visuospatial tasks brought about by fornix transection can be ameliorated by direct stimulation of cholinergic receptors using pilocarpine or by blockade of the serotonergic inhibitory modulation of the hippocampus using the 5HT1Areceptor antagonist, WAY100635, indicating an equal-but-opposite modulatory effect of these two neurotransmitters on hippocampal function.

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灵长类动物学习、记忆和遗忘过程中海马体的神经化学调节
外部世界的信息通过谷氨酸能锥体细胞途径从后联合皮层经下托进入海马体。经过处理的信息通过互惠的谷氨酸能途径从海马体转移回后联想皮层。这些通路被认为对获得长期记忆至关重要,尽管记忆似乎更可能储存在大脑皮层而不是海马体中。海马是通过形式传入的功能性兴奋性胆碱能调节和通过5ht1受体特异性的功能性抑制性血清素能调节来支持的。海马体的胆碱能调节对于视觉空间任务的有效习得是必要的,但对于手术前首次获得的类似任务的保留不是必要的。海马体外区域的胆碱能调节可能有助于记忆的维持,而穹窿中的非胆碱能输出可能需要在海马体完好时检索首次学习的任务。通过使用匹罗卡品直接刺激胆碱能受体或使用5ht1a受体拮抗剂WAY100635阻断海马的5 -羟色胺能抑制性调节,可以改善穹孔横断带来的视觉空间任务获取障碍,这表明这两种神经递质对海马功能的调节作用是相等但相反的。
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