高龄对雄性大鼠海马 CA1 涟漪和 CA3 高频事件有可分离的影响。

Advanced age has dissociable effects on hippocampal CA1 ripples and CA3 high frequency events in male rats.

机构信息

Evelyn F. McKnight McKnight Brain Institute, Department of Neuroscience, University of Florida, Gainesville, FL, USA.

出版信息

Neurobiol Aging. 2022 Sep;117:44-58. doi: 10.1016/j.neurobiolaging.2022.04.014. Epub 2022 May 5.

DOI:10.1016/j.neurobiolaging.2022.04.014

PMID:35665647

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9392897/

Abstract

Sharp wave/ripples/high frequency events (HFEs) are transient bursts of depolarization in hippocampal subregions CA3 and CA1 that occur during rest and pauses in behavior. Previous studies have reported that CA1 ripples in aged rats have lower frequency than those detected in young animals. While CA1 ripples are thought to be driven by CA3, HFEs in CA3 have not been examined in aged animals. The current study obtained simultaneous recordings from CA1 and CA3 in young and aged rats to examine sharp wave/ripples/HFEs in relation to age. While CA1 ripple frequency was reduced with age, there were no age differences in the frequency of CA3 HFEs, although power and length were lower in old animals. While there was a proportion of CA1 ripples that co-occurred with a CA3 HFE, none of the age-related differences in CA1 ripples could be explained by alterations in CA3 HFE characteristics. These findings suggest that age differences in CA1 are not due to altered CA3 activity, but instead reflect distinct mechanisms of ripple generation with age.

摘要

尖峰波/涟漪/高频事件 (HFEs) 是海马亚区 CA3 和 CA1 中在休息和行为停顿期间发生的去极化瞬态爆发。先前的研究报告称，老年大鼠的 CA1 涟漪频率低于年轻动物检测到的频率。虽然 CA1 涟漪被认为是由 CA3 驱动的，但尚未在老年动物中检查 CA3 中的 HFEs。本研究在年轻和老年大鼠中同时记录 CA1 和 CA3，以研究与年龄相关的尖峰波/涟漪/HFEs。虽然 CA1 涟漪频率随年龄增长而降低，但 CA3 HFEs 的频率没有年龄差异，尽管老年动物的功率和长度较低。虽然 CA1 涟漪中有一部分与 CA3 HFE 同时发生，但 CA1 涟漪的年龄相关差异不能用 CA3 HFE 特征的改变来解释。这些发现表明，CA1 的年龄差异不是由于 CA3 活动改变引起的，而是反映了与年龄相关的涟漪产生的不同机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/24b6/9392897/a5831546b665/nihms-1825914-f0001.jpg

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高龄对雄性大鼠海马 CA1 涟漪和 CA3 高频事件有可分离的影响。

Advanced age has dissociable effects on hippocampal CA1 ripples and CA3 high frequency events in male rats.

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