尽管海马胆囊收缩素中间神经元的同步释放减少,但突触前海人藻酸受体的激活可保留 GABA 的非同步释放。
Presynaptic kainate receptor activation preserves asynchronous GABA release despite the reduction in synchronous release from hippocampal cholecystokinin interneurons.
机构信息
Program in Developmental Neuroscience, Eunice Kennedy Shriver National Institute of Child Health and Human Development, Developmental Synaptic Plasticity Section, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892, USA.
出版信息
J Neurosci. 2010 Aug 18;30(33):11202-9. doi: 10.1523/JNEUROSCI.6334-09.2010.
Abstract
Inhibitory synaptic transmission in the hippocampus in mediated by a wide variety of different interneuron classes which are assumed to play different roles in network activity. Activation of presynaptic kainate receptors (KARs) has been shown to reduce inhibitory transmission but the interneuron class(es) at which they act is only recently beginning to emerge. Using paired recordings we show that KAR activation causes a decrease in presynaptic release from cholecystokinin (CCK)- but not parvalbumin-containing interneurons and that this decrease is observed when pyramidal cells, but not interneurons, are the postsynaptic target. We also show that although the synchronous release component is reduced, the barrage of asynchronous GABA release from CCK interneurons during sustained firing is unaffected by KAR activation. This indicates that presynaptic KARs preserve and act in concert with asynchronous release to switch CCK interneurons from a phasic inhibition mode to produce prolonged inhibition during periods of intense activity.
摘要
在海马体中,抑制性突触传递是由多种不同的中间神经元介导的,这些中间神经元被认为在网络活动中发挥不同的作用。现已证实,激活突触前的 kainate 受体 (KAR) 可减少抑制性传递,但 KAR 作用的中间神经元类群直到最近才开始显现。我们通过配对记录表明,KAR 的激活导致来自胆囊收缩素 (CCK) 而非 parvalbumin 中间神经元的突触前释放减少,并且当作为突触后靶的是锥体细胞而不是中间神经元时,可观察到这种减少。我们还表明,尽管同步释放成分减少,但在持续放电期间,来自 CCK 中间神经元的异步 GABA 释放的爆发不受 KAR 激活的影响。这表明,突触前 KAR 保留并与异步释放协同作用,将 CCK 中间神经元从相位抑制模式切换为在高强度活动期间产生持续抑制。
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