环境新颖性会在 CA1 区而非下托区引发较晚的 theta 相位放电。
Environmental novelty elicits a later theta phase of firing in CA1 but not subiculum.
机构信息
Behavioural Neuroscience Lab, Institute of Psychological Sciences, University of Leeds, Leeds, United Kingdom.
出版信息
Hippocampus. 2010 Feb;20(2):229-34. doi: 10.1002/hipo.20671.
Abstract
The mechanism supporting the role of the hippocampal formation in novelty detection remains controversial. A comparator function has been variously ascribed to CA1 or subiculum, whereas the theta rhythm has been suggested to separate neural firing into encoding and retrieval phases. We investigated theta phase of firing in principal cells in subiculum and CA1 as rats foraged in familiar and novel environments. We found that the preferred theta phase of firing in CA1, but not subiculum, was shifted to a later phase of the theta cycle during environmental novelty. Furthermore, the amount of phase shift elicited by environmental change correlated with the extent of place cell remapping in CA1. Our results support a relationship between theta phase and novelty-induced plasticity in CA1.
摘要
支持海马结构在新异检测中作用的机制仍存在争议。比较功能已被归因于 CA1 或下托,而θ节律被认为将神经放电分离为编码和检索阶段。当大鼠在熟悉和新颖的环境中觅食时,我们研究了下托和 CA1 中的主细胞的θ放电相位。我们发现,在环境新颖性期间,CA1 中的放电首选θ相位向后移动到θ周期的后期阶段,但在下托中则没有。此外,环境变化引起的相位移动量与 CA1 中位置细胞重映射的程度相关。我们的结果支持 CA1 中的θ相位与新奇诱导可塑性之间的关系。
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