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Differential Contributions of CA3 and Entorhinal Cortex Inputs to Ripple Patterns in the Hippocampus Under Cannabidiol

bioRxiv Pub Date : 2024-08-08 DOI:10.1101/2024.08.06.606645
Adrian Aleman-Zapata, Melisa Maidana Capitan, Anumita Samanta, Pelin Özsezer, K. Agarwal, Tugdual Adam, Abdelrahman Rayan, Lisa Genzel
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Abstract

Cannabidiol (CBD), increasingly recognized for its potential to treat insomnia, notably extends NonREM sleep phases and modifies sleep-associated ripple dynamics. Utilizing a threshold-based approach, our study differentiated distinct ripple types in rats, clarifying the contributions of intra-hippocampal (CA3) and cortical (mEC) regions to these events. The findings reveal that CBD primarily influences the CA3’s input to the CA1, resulting in an increased occurrence of short ripples predominantly induced by cortical (mEC) activity and a corresponding decrease in long, intra-hippocampal sharp-wave-ripples. This study highlights the critical interplay between the CA3 and entorhinal cortex dynamics in shaping the characteristics of hippocampal ripples under the influence of CBD.
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大麻二酚作用下 CA3 和内皮层输入对海马波纹模式的不同贡献
大麻二酚(CBD)因其治疗失眠症的潜力而日益得到认可,它能明显延长非快速眼动睡眠期并改变与睡眠相关的波纹动态。利用基于阈值的方法,我们的研究区分了大鼠不同的波纹类型,明确了海马内(CA3)和皮质(mEC)区域对这些事件的贡献。研究结果表明,CBD 主要影响 CA3 对 CA1 的输入,导致主要由皮质(mEC)活动诱发的短波纹发生率增加,而海马内尖波波纹的发生率相应减少。这项研究强调了在 CBD 的影响下,CA3 和内视网膜皮层动力学在塑造海马波纹特征方面的关键相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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