Distinct Ventral Hippocampus Network Properties in Dissociated Cultures

IF 2.4 3区医学 Q3 NEUROSCIENCES

Hippocampus Pub Date : 2024-11-02 DOI:10.1002/hipo.23648

Menahem Segal

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Abstract

Extensive research has been focused in the past century on structural, physiological, and molecular attributes of the hippocampus. This interest was created by the unique involvement of the hippocampus in cognitive and affective functions of the brain. Functional analysis revealed that the hippocampus has divergent properties along its axial dimension to the extent that the dorsal sector (dorsal hippocampus, DH) has different connections with the rest of the brain than those of the ventral sector (VH). Still, longitudinal pathways connect the DH with the VH and dampen the functional differences between the sectors. To be able to identify the intrinsic functional difference between the DH and VH, we produced dissociated monolayer cultures from prenatal DH and VH and examined their properties at 10–20 days after plating by imaging the spontaneous activity of the network using Fluo-2 AM, a calcium indicator. Surprisingly, while DH and VH sectors produced dissociated cultures with similar morphological attributes, VH cultures were more active spontaneously than DH cultures. Furthermore, when stimulated to produce action potentials, VH neurons triggered network bursts in postsynaptic neurons more often than DH cultures. Finally, in both DH and VH cultures, electrical stimulation of single cells produced network bursts in response to a burst of action potentials rather than to single spikes. These experiments indicate that even in dissociated cultures, neurons of the VH are more excitable and sensitive to electrical stimulation than DH; hence, they are more likely to generate network bursts and epileptic seizures, as suggested for in vivo brains.

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分离培养物中不同的海马体腹侧网络特性

上个世纪，人们对海马体的结构、生理和分子特性进行了广泛的研究。海马在大脑认知和情感功能中的独特作用引起了人们的兴趣。功能分析显示，海马在其轴向维度上具有不同的属性，以至于背侧部分（背侧海马，DH）与大脑其他部分的连接与腹侧部分（VH）的连接不同。然而，纵向通路连接着背侧海马区和腹侧海马区，并抑制了各区之间的功能差异。为了确定DH和VH之间的内在功能差异，我们从出生前的DH和VH中分离出单层培养物，并在培养10-20天后使用钙指示剂Fluo-2 AM对网络的自发活动进行成像，从而检测它们的特性。令人惊讶的是，虽然 DH 和 VH 部分产生的离体培养物具有相似的形态属性，但 VH 培养物的自发活动比 DH 培养物更活跃。此外，当刺激神经元产生动作电位时，VH 神经元比 DH 培养物更经常触发突触后神经元的网络爆发。最后，在 DH 和 VH 培养物中，对单个细胞的电刺激产生的网络爆发是对动作电位爆发的反应，而不是对单个尖峰的反应。这些实验表明，即使在离体培养物中，VH 神经元也比 DH 神经元更易兴奋，对电刺激更敏感；因此，它们更有可能产生网络爆发和癫痫发作，这与体内大脑的情况一致。

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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来源期刊

Hippocampus 医学-神经科学

CiteScore

5.80

自引率

5.70%

发文量

审稿时长

3-8 weeks

期刊介绍： Hippocampus provides a forum for the exchange of current information between investigators interested in the neurobiology of the hippocampal formation and related structures. While the relationships of submitted papers to the hippocampal formation will be evaluated liberally, the substance of appropriate papers should deal with the hippocampal formation per se or with the interaction between the hippocampal formation and other brain regions. The scope of Hippocampus is wide: single and multidisciplinary experimental studies from all fields of basic science, theoretical papers, papers dealing with hippocampal preparations as models for understanding the central nervous system, and clinical studies will be considered for publication. The Editor especially encourages the submission of papers that contribute to a functional understanding of the hippocampal formation.