兴奋的阻断揭示了对大鼠海马切片中记录的齿状棘状门区神经元的抑制作用。
Blockade of excitation reveals inhibition of dentate spiny hilar neurons recorded in rat hippocampal slices.
作者信息
Scharfman H E
机构信息
Neurology Research Center, Helen Hayes Hospital, New York State Department of Health, West Haverstraw 10993-1195.
出版信息
J Neurophysiol. 1992 Sep;68(3):978-84. doi: 10.1152/jn.1992.68.3.978.
Abstract
- Extracellular and intracellular recordings in rat hippocampal slices were used to compare the synaptic responses to perforant path stimulation of granule cells of the dentate gyrus, spiny "mossy" cells of the hilus, and area CA3c pyramidal cells of hippocampus. Specifically, we asked whether aspects of the local circuitry could explain the relative vulnerability of spiny hilar neurons to various insults to the hippocampus. 2. Spiny hilar cells demonstrated a surprising lack of inhibition after perforant path activation, despite robust paired-pulse inhibition and inhibitory postsynaptic potentials (IPSPs) in adjacent granule cells and area CA3c pyramidal cells in response to the same stimulus in the same slice. However, when the slice was perfused with excitatory amino acid antagonists [6-cyano-7-nitro-quinoxaline-2,3-dione (CNQX), or CNQX with 2-amino-5-phosphonovaleric acid (APV)], IPSPs could be observed in spiny hilar cells in response to perforant path stimulation. 3. The IPSPs evoked in spiny hilar cells in the presence of CNQX were similar in their reversal potentials and bicuculline sensitivity to IPSPs recorded in dentate granule cells or hippocampal pyramidal cells in the absence of CNQX. 4. These results demonstrate that, at least in slices, perforant path stimulation of spiny hilar cells is primarily excitatory and, when excitation is blocked, underlying inhibition can be revealed. This contrasts to the situation for dentate and hippocampal principal cells, which are ordinarily dominated by inhibition, and only when inhibition is compromised can the full extent of excitation be appreciated.(ABSTRACT TRUNCATED AT 250 WORDS)
摘要
- 采用大鼠海马脑片的胞外和胞内记录,比较齿状回颗粒细胞、海马门部多棘“苔藓状”细胞以及海马CA3c区锥体细胞对穿通通路刺激的突触反应。具体而言,我们探究局部神经回路的某些方面是否能够解释多棘海马门部神经元对海马各种损伤的相对易损性。2. 尽管在同一切片中,相邻颗粒细胞和CA3c区锥体细胞对相同刺激表现出强烈的双脉冲抑制和抑制性突触后电位(IPSP),但穿通通路激活后,多棘海马门部细胞却惊人地缺乏抑制作用。然而,当脑片用兴奋性氨基酸拮抗剂[6-氰基-7-硝基喹喔啉-2,3-二酮(CNQX),或CNQX与2-氨基-5-磷酸戊酸(APV)]灌注时,多棘海马门部细胞对穿通通路刺激可观察到IPSP。3. 在存在CNQX的情况下,多棘海马门部细胞诱发的IPSP,其反转电位和荷包牡丹碱敏感性与在不存在CNQX时齿状颗粒细胞或海马锥体细胞记录到的IPSP相似。4. 这些结果表明,至少在脑片中,对多棘海马门部细胞的穿通通路刺激主要是兴奋性的,当兴奋被阻断时,潜在的抑制作用就会显现出来。这与齿状和海马主细胞的情况形成对比,它们通常以抑制为主,只有当抑制作用受损时,才能充分认识到兴奋的程度。(摘要截短至250字)
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