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兴奋放大通过发散-会聚电路:中线丘脑在边缘性癫痫发作中的作用。

Excitatory amplification through divergent-convergent circuits: the role of the midline thalamus in limbic seizures.

机构信息

University of Virginia, Neuroscience Graduate Program, Charlottesville 22901, USA.

出版信息

Neurobiol Dis. 2011 Aug;43(2):435-45. doi: 10.1016/j.nbd.2011.04.017. Epub 2011 Apr 30.

DOI:10.1016/j.nbd.2011.04.017
PMID:21554957
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4297203/
Abstract

INTRODUCTION

The midline thalamic nuclei are an important component of limbic seizures. Although the anatomic connections and excitatory influences of the midline thalamus are well known, its physiological role in limbic seizures is unclear. We examined the role of the midline thalamus on two circuits that are involved in limbic seizures: (a) the subiculum-prefrontal cortex (SB-PFC), and (b) the piriform cortex-entorhinal cortex (PC-EC).

METHODS

Evoked field potentials for both circuits were obtained in anesthetized rats, and the likely direct monosynaptic and polysynaptic contributions to the responses were identified. Seizures were generated in both circuits by 20 Hz stimulus trains. Once stable seizures and evoked potentials were established, the midline thalamus was inactivated through an injection of the sodium channel blocker tetrodotoxin (TTX), and the effects on the evoked responses and seizures were analyzed.

RESULTS

Inactivation of the midline thalamus suppressed seizures in both circuits. Seizure suppression was associated with a significant reduction in the late thalamic component but no significant change in the early direct monosynaptic component. Injections that did not suppress the seizures did not alter the evoked potentials.

CONCLUSIONS

Suppression of the late thalamic component of the evoked potential at the time of seizure suppression suggests that the thalamus facilitates seizure induction by extending the duration of excitatory drive through a divergent-convergent excitatory amplification system. This work may have broader implications for understanding signaling in the limbic system.

摘要

简介

中线丘脑核是边缘性癫痫发作的一个重要组成部分。尽管中线丘脑的解剖连接和兴奋性影响已被充分了解,但它在边缘性癫痫发作中的生理作用尚不清楚。我们研究了中线丘脑在两个涉及边缘性癫痫发作的回路中的作用:(a)下托-前额皮质(SB-PFC),和(b)梨状皮层-内嗅皮层(PC-EC)。

方法

在麻醉大鼠中获得了这两个回路的诱发电场电位,并确定了对反应的可能直接单突触和多突触贡献。通过 20 Hz 刺激序列在这两个回路中产生癫痫发作。一旦稳定的癫痫发作和诱发电位建立,通过注射钠离子通道阻滞剂河豚毒素(TTX)使中线丘脑失活,并分析对诱发电位和癫痫发作的影响。

结果

中线丘脑失活抑制了两个回路中的癫痫发作。癫痫发作的抑制与晚期丘脑成分的显著减少有关,但早期直接单突触成分没有显著变化。没有抑制癫痫发作的注射不会改变诱发电位。

结论

在癫痫发作抑制时抑制诱发电位的晚期丘脑成分表明,丘脑通过发散-会聚的兴奋性放大系统延长兴奋性驱动的持续时间来促进癫痫发作的诱导。这项工作可能对理解边缘系统中的信号传递具有更广泛的意义。

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