Department of Cognition, Development and Educational Psychology, University of Barcelona, Pg Vall Hebrón 171, 08035 Barcelona, Spain; Institute of Neurosciences, University of Barcelona, Pg Vall Hebrón 171, 08035 Barcelona, Spain.
Department of Cognition, Development and Educational Psychology, University of Barcelona, Pg Vall Hebrón 171, 08035 Barcelona, Spain; Institute of Neurosciences, University of Barcelona, Pg Vall Hebrón 171, 08035 Barcelona, Spain; Department of Psychology, Ludwig-Maximilians-Universität München, Munich, Germany.
Curr Biol. 2023 May 8;33(9):1836-1843.e6. doi: 10.1016/j.cub.2023.03.073. Epub 2023 Apr 14.
Computational models and in vivo studies in rodents suggest that the emergence of gamma activity (40-140 Hz) during memory encoding and retrieval is coupled to opposed-phase states of the underlying hippocampal theta rhythm (4-9 Hz). However, direct evidence for whether human hippocampal gamma-modulated oscillatory activity in memory processes is coupled to opposed-phase states of the ongoing theta rhythm remains elusive. Here, we recorded local field potentials (LFPs) directly from the hippocampus of 10 patients with epilepsy, using depth electrodes. We used a memory encoding and retrieval task whereby trial unique sequences of pictures depicting real-life episodes were presented, and 24 h later, participants were asked to recall them upon the appearance of the first picture of the encoded episodic sequence. We found theta-to-gamma cross-frequency coupling that was specific to the hippocampus during both the encoding and retrieval of episodic memories. We also revealed that gamma was coupled to opposing theta phases during both encoding and recall processes. Additionally, we observed that the degree of theta-gamma phase opposition between encoding and recall was associated with participants' memory performance, so gamma power was modulated by theta phase for both remembered and forgotten trials, although only for remembered trials the dominant theta phase was different for encoding and recall trials. The current results offer direct empirical evidence in support of hippocampal theta-gamma phase opposition models in human long-term memory and provide fundamental insights into mechanistic predictions derived from computational and animal work, thereby contributing to establishing similarities and differences across species.
计算模型和啮齿动物体内研究表明,在记忆编码和检索过程中γ活动(40-140 Hz)的出现与潜在海马θ节律(4-9 Hz)的相反相位状态相关。然而,关于人类海马体在记忆过程中γ调制的振荡活动是否与正在进行的θ节律的相反相位状态相关的直接证据仍然难以捉摸。在这里,我们使用深部电极直接从 10 名癫痫患者的海马体中记录局部场电位 (LFP)。我们使用了一种记忆编码和检索任务,其中独特的图片序列描绘了现实生活中的场景被呈现,24 小时后,参与者被要求在编码的情景序列的第一张图片出现时回忆起它们。我们发现,在情景记忆的编码和检索过程中,海马体的θ-γ交叉频域耦合是特定的。我们还揭示了在编码和回忆过程中,γ与相反的θ相位耦合。此外,我们观察到,在编码和回忆之间的θ-γ相位相反程度与参与者的记忆表现相关,因此对于记住和忘记的试验,γ功率都受到θ相位的调制,尽管仅对于记住的试验,编码和回忆试验的主导θ相位不同。目前的结果为人类长期记忆中海马体θ-γ相位对立模型提供了直接的经验证据,并为计算和动物工作得出的机制预测提供了基本的见解,从而有助于确定跨物种的相似性和差异性。
