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EPILEPTIFORM ACTIVITY ON HIPPOCAMPAL MICROCULTURES

海马微培养物上的癫痫样活动

基本信息

批准号：
3084420
负责人：
MICHAEL M SEGAL
金额：
$ 6.37万
依托单位：
HARVARD MEDICAL SCHOOL
依托单位国家：
美国
项目类别：
财政年份：
1989
资助国家：
美国
起止时间：
1989-07-15 至 1994-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3084420
关键词：
biological models cell cell interaction electrophysiology epilepsy hippocampus laboratory rat neurons synapses tissue /cell culture

项目摘要

It is proposed to do direct electro-physiological studies of synapses made by hippocampal neurons in culture, focusing on synaptic mechanisms involved in epilepsy. This work draws on two experimental advances of our group. One is a technique I have developed for growing "microcultures" of central nervous system neurons. These microcultures can contain as few as one neuron, and can survive for as long as several months. The other advance is an in-vitro epilepsy model of Furshpan and Potter (1988) that involves dissociated hippocampal neurons that are grown for prolonged periods in culture in the presence of blockers of synaptic activity (such as kynurenic acid and magnesium). When the cultures are returned to regular growth medium, the neurons produce intense bursts of electrical activity that closely resemble the seizure activity recorded from the intact hippocampus. Aims for the project are: - To study synapses in hippocampal microcultures. Microcultures are a useful general method for physiological and pharmacological studies of synaptic interactions, with some significant advantages over other experimental models such as cortical slices. Neurons and their circuitry will be categorized by collecting information about spontaneous firing patterns, synaptic inputs and synaptic outputs, and iontophoretic responses. - To simplify the model of epileptiform activity in mass-cultures of thousands of neurons down to smaller numbers of neurons in minicultures and microcultures, in order to study the phenomenon of epilepsy at the level of individual synapses in a system consisting of only several neurons. The abnormalities of the chronically blocked cultures will be investigated to determine the cause of the epileptiform activity in this model system. The model system will be used to investigate pharmacological treatments of epilepsy that are targeted at specific subgroups of neurons, to avoid current epilepsy treatments.

建议对突触进行直接的电生理学研究通过培养中的海马神经元，重点关注所涉及的突触机制在癫痫病中。这项工作借鉴了我们小组的两项实验进展。一是我开发的一种技术，用于种植中央的“微培养物” 神经系统神经元。这些微培养物可以包含少至一个神经元，可以存活长达几个月。另一个提前是 Furshpan 和 Potter (1988) 的体外癫痫模型涉及分离的海马神经元在长时间内生长在存在突触活性阻断剂（例如犬尿酸）的情况下进行培养酸和镁）。当培养物恢复正常生长时介质中，神经元产生强烈的电活动爆发与完整海马记录的癫痫活动非常相似。该项目的目标是： - 研究海马微培养物中的突触。微培养物是生理学和药理学研究的有用通用方法突触相互作用，与其他相互作用相比具有一些显着的优势实验模型，例如皮质切片。神经元及其电路将通过收集有关自燃的信息进行分类模式、突触输入和突触输出以及离子电渗疗法回应。 - 简化大众文化中癫痫样活动的模型在小型培养物中将数千个神经元减少到较少数量的神经元微培养，以研究癫痫现象仅由几个神经元组成的系统中的单个突触。这将调查长期封闭培养物的异常情况确定该模型系统中癫痫样活动的原因。这模型系统将用于研究药物治疗针对特定神经元亚群的癫痫，以避免目前的癫痫治疗。