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HIPPOCAMPAL INHIBITION--CIRCUITRY AND MATURATION

海马抑制——电路和成熟

基本信息

批准号：
2609672
负责人：
HILLARY B MICHELSON
金额：
$ 11.47万
依托单位：
SUNY DOWNSTATE MEDICAL CENTER
依托单位国家：
美国
项目类别：
财政年份：
1994
资助国家：
美国
起止时间：
1994-12-01 至 1999-11-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/2609672
关键词：
GABA receptor action potentials anesthetics developmental neurobiology fluorescent dye /probe gamma aminobutyrate guinea pigs hippocampus interneurons laboratory rat neural inhibition neuroanatomy neuropharmacology pyramidal cells resting potentials synapses

项目摘要

The overall objective of the proposed project is to further our understanding of the connectivity and maturation of the inhibitory circuit in the hippocampus. Until recently, it was believed that the activation of inhibition in the hippocampus was dependent upon glutamate-mediated excitation, via feedforward and feedback pathways. Our recent studies have demonstrated that inhibitory interneurons can also be recruited through two pathways which do not require glutamate- mediated neurotransmission: (1) via the depolarizing action of GABA on BABA/A receptors from synaptically connected interneurons and (2) via presumed electrotonic coupling. The proposed study will further characterize these novel, glutamate-independent inhibitory synchronization processes. In vitro experiments on the hippocampal slice will be performed to address three major issues. These are (1) confirmation of electrotonic coupling among a subpopulation of interneurons, (2) analysis of interneuron morphology to determine structural correlates for the functional differentiation of interneurons into various subgroups and (3) determination of the developmental profile of these glutamate-independent synchronization processes in the immature brain. All experiments will involve intracellular recording from identified inhibitory neurons and, in most cases, CA3 pyramidal cells. Electrotonic coupling will be verified directly, using paired recordings, and supportive data will be gathered using intracellular dye markers to uncover dye-coupled cells, application of volatile anesthetics and modification of the extracellular milieu (both procedures designed to disrupt gap junctions). Morphological analysis of interneurons will be performed using the intracellular marker Neurobiotin, with simultaneous electrophysiological analyses of intrinsic properties, synaptic and electrotonic coupling. The developmental studies will assess both the intrinsic maturation of interneurons and the maturation of the inhibitory circuit as a whole, as related to its output onto pyramidal cells. The inhibitory circuit plays an integral role in the normal function of the hippocampus, and is essential for limiting the propagation of abnormal activity in conditions such as epilepsy. Our recent studies demonstrate that the inhibitory circuit is much more complex than previously realized. The experiments in the proposed study will examine this complexity so that we can further our understanding of the normal and abnormal network function in the hippocampus.

拟议项目的总体目标是进一步加强我们的理解抑制性神经元的连接和成熟海马体中的回路直到最近，人们才相信海马中抑制的激活依赖于谷氨酸介导的兴奋，通过前馈和反馈途径。我们最近的研究表明，抑制性中间神经元可以也可以通过两种不需要谷氨酸的途径来募集，介导的神经传递：（1）通过GABA的去极化作用对来自突触连接的中间神经元的BABA/A受体的影响，以及（2）通过假定的电紧张耦合。拟议的研究将进一步这些新的谷氨酸非依赖性抑制剂，同步过程。体外海马实验将进行切片以解决三个主要问题。这些是（1）证实了一个亚群之间的电紧张性耦合（2）分析中间神经元的形态，以确定功能分化的结构相关因素（3）确定中间神经元的亚群; 这些谷氨酸非依赖性同步化的发育概况未成熟大脑中的突起所有实验都将涉及来自识别的抑制性神经元的细胞内记录，在大多数情况下， CA 3区锥体细胞5例。将验证电紧张耦合直接，使用配对记录，并收集支持性数据使用细胞内染料标记物来揭示染料偶联的细胞，挥发性麻醉药的应用和改良细胞外环境（两种程序都旨在破坏间隙 junctions）。将进行中间神经元的形态学分析使用细胞内标记物神经生物素，同时电生理学分析的内在属性，突触和电紧张耦合发展研究将评估中间神经元的内在成熟和抑制回路作为一个整体，与其输出到锥体细胞抑制回路在正常功能中起着不可或缺的作用海马体，是必不可少的限制传播，在癫痫等情况下的异常活动。我们最近的研究这表明抑制回路要比以前实现的。拟议研究中的实验将研究这种复杂性，以便我们能够进一步了解海马体中正常和异常的网络功能。