Kainate receptors at corticothalamic synapses do not contribute to synaptic responses

Sonia Bolea, Xiao-Bo Liu, Edward G Jones
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引用次数: 7

Abstract

Kainate receptors (KAR) remain the most poorly defined components of the glutamate receptor system in the CNS, mainly because of the difficulty of distinguishing currents gated by KAR from those mediated by α-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) receptor activation, and because KAR are expressed at significantly lower levels than AMPA receptors in most parts of the CNS.

The corticothalamic projection exerts its effects on thalamic neurons via NMDA, non-NMDA and metabotropic glutamate receptors. AMPA receptor mediated effects tend to predominate in the mature thalamus, but the involvement of kainate receptors at corticothalamic synapses on relay neurons and reticular nucleus neurons had not been studied.

The present work compared KAR influences on neurons in the ventral posterior nucleus (VP) and reticular nucleus (RTN), using whole-cell recording in P14–P20 mouse thalamocortical slices. The results were correlated with quantitative immuno-electron microscopic localization of kainate receptor sub-units at corticothalamic synapses in these nuclei. Small kainate-induced inward currents could be recorded in thalamic neurons in response to bath application of kainate, but no KAR-mediated pre-synaptic effects could be detected and no synaptic responses could be evoked in these cells by corticothalamic stimulation. Morphologically, GluR5/6/7 sub-units were expressed at low levels in both VP and RTN and were confined to post-synaptic membranes at corticothalamic synapses in both VP and RTN. Many synapses, however, lacked GluR5/6/7 immunoreactivity.

These results suggest that kainate receptor-mediated events are not major components of the responses of thalamic neurons to corticothalamic activation, either because of small numbers or their location in sites inaccessible to glutamate released from corticothalamic terminals.

皮质丘脑突触的盐酸盐受体不参与突触反应
Kainate受体(KAR)仍然是CNS中谷氨酸受体系统中定义最不明确的成分,主要是因为难以区分由KAR门控的电流和由α-氨基-3-羟基-5-甲基-4-异恶唑丙酸(AMPA)受体激活介导的电流,并且因为KAR在CNS大多数部位的表达水平明显低于AMPA受体。皮质丘脑投射通过NMDA、非NMDA和代谢性谷氨酸受体对丘脑神经元产生影响。AMPA受体介导的作用往往在成熟的丘脑中占主导地位,但在中继神经元和网状核神经元上的皮质丘脑突触上的海碱盐受体的参与尚未研究。本研究利用P14-P20小鼠丘脑皮质切片全细胞记录,比较了KAR对腹侧后核(VP)和网状核(RTN)神经元的影响。结果与这些核皮质丘脑突触中海碱盐受体亚基的定量免疫电镜定位有关。盐酸盐在丘脑神经元中引起了小的向内电流,但在这些细胞中没有检测到kar介导的突触前效应,皮质丘脑刺激也没有引起突触反应。形态学上,GluR5/6/7亚基在VP和RTN中均低表达,且局限于VP和RTN皮质丘脑突触的突触后膜。然而,许多突触缺乏GluR5/6/7免疫反应性。这些结果表明,盐酸盐受体介导的事件不是丘脑神经元对皮质丘脑激活反应的主要组成部分,要么是因为数量少,要么是因为它们位于皮质丘脑末端释放的谷氨酸无法进入的位置。
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