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本文引用的文献

1
Opioid inhibition of hippocampal interneurons via modulation of potassium and hyperpolarization-activated cation (Ih) currents.阿片类药物通过调节钾离子和超极化激活阳离子(Ih)电流对海马中间神经元产生抑制作用。
J Neurosci. 1998 Sep 15;18(18):7084-98. doi: 10.1523/JNEUROSCI.18-18-07084.1998.
2
How many subtypes of inhibitory cells in the hippocampus?海马体中抑制性细胞有多少种亚型?
Neuron. 1998 May;20(5):983-93. doi: 10.1016/s0896-6273(00)80479-1.
3
Morphine disrupts long-range synchrony of gamma oscillations in hippocampal slices.吗啡会破坏海马体切片中γ振荡的长程同步性。
Proc Natl Acad Sci U S A. 1998 May 12;95(10):5807-11. doi: 10.1073/pnas.95.10.5807.
4
CA1 pyramidal to basket and bistratified cell EPSPs: dual intracellular recordings in rat hippocampal slices.大鼠海马切片中CA1锥体神经元与篮状细胞和双分层细胞之间的兴奋性突触后电位:双细胞内记录
J Physiol. 1998 Feb 15;507 ( Pt 1)(Pt 1):201-17. doi: 10.1111/j.1469-7793.1998.201bu.x.
5
Facilitating pyramid to horizontal oriens-alveus interneurone inputs: dual intracellular recordings in slices of rat hippocampus.促进锥体神经元向水平向海马槽中间神经元的输入:大鼠海马切片中的双细胞内记录
J Physiol. 1998 Feb 15;507 ( Pt 1)(Pt 1):185-99. doi: 10.1111/j.1469-7793.1998.185bu.x.
6
Acetylcholine activates an alpha-bungarotoxin-sensitive nicotinic current in rat hippocampal interneurons, but not pyramidal cells.乙酰胆碱可激活大鼠海马中间神经元中对α-银环蛇毒素敏感的烟碱电流,但对锥体细胞无此作用。
J Neurosci. 1998 Feb 15;18(4):1187-95. doi: 10.1523/JNEUROSCI.18-04-01187.1998.
7
Hippocampal interneurons are excited via serotonin-gated ion channels.海马体中间神经元通过血清素门控离子通道被激活。
J Neurophysiol. 1997 Nov;78(5):2493-502. doi: 10.1152/jn.1997.78.5.2493.
8
Enkephalinergic nerve terminals target inhibitory interneurons in the rat hippocampus.
Neuroreport. 1997 Jul 28;8(11):2471-5. doi: 10.1097/00001756-199707280-00012.
9
Synaptic effects of identified interneurons innervating both interneurons and pyramidal cells in the rat hippocampus.在大鼠海马体中,已鉴定的同时支配中间神经元和锥体细胞的中间神经元的突触效应。
Neuroscience. 1997 Aug;79(3):629-48. doi: 10.1016/s0306-4522(97)00055-9.
10
A novel type of GABAergic interneuron connecting the input and the output regions of the hippocampus.一种连接海马体输入区和输出区的新型γ-氨基丁酸能中间神经元。
J Neurosci. 1997 Jul 15;17(14):5380-94. doi: 10.1523/JNEUROSCI.17-14-05380.1997.

阿片受体亚型表达定义了形态学上不同类别的海马中间神经元。

Opioid receptor subtype expression defines morphologically distinct classes of hippocampal interneurons.

作者信息

Svoboda K R, Adams C E, Lupica C R

机构信息

Department of Pharmacology, University of Colorado Health Sciences Center, Denver, Colorado 80262, USA.

出版信息

J Neurosci. 1999 Jan 1;19(1):85-95. doi: 10.1523/JNEUROSCI.19-01-00085.1999.

DOI:10.1523/JNEUROSCI.19-01-00085.1999
PMID:9870941
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6782380/
Abstract

The inhibition of hippocampal pyramidal cells occurs via inhibitory interneurons making GABAergic synapses on distinct segments of the postsynaptic membrane. In area CA1 of the hippocampus, the activation of mu- and delta-opioid receptors inhibits these interneurons, thereby increasing the excitability of the pyramidal cells. Through the use of selective opioid agonists and biocytin-filled whole-cell electrodes, interneurons possessing somata located within stratum oriens of hippocampal slices were classified according to the location of their primary axon termination and the expression of mu- or delta-opioid receptors. Activation of these opioid receptor subtypes resulted in outward currents in the majority of interneurons, which is consistent with their inhibition. Post hoc morphological analysis revealed that those interneurons heavily innervating the pyramidal cell body layer were much more likely to express mu-opioid receptors, whereas cells with axons ramifying in the pyramidal neuron dendritic layers were more likely to express delta-opioid receptors, as defined by the generation of outward currents. This morphological segregation of interneuron projections suggests that mu receptor activation would diminish GABA release onto pyramidal neuron somata, thereby increasing their excitability and output. Conversely, inhibition of interneurons via delta receptor activation would amplify afferent signaling to pyramidal neuron dendrites by reducing GABAergic inhibition of these structures.

摘要

海马锥体细胞的抑制作用是通过抑制性中间神经元在突触后膜的不同节段形成GABA能突触来实现的。在海马的CA1区,μ-阿片受体和δ-阿片受体的激活会抑制这些中间神经元,从而增加锥体细胞的兴奋性。通过使用选择性阿片类激动剂和生物素填充的全细胞电极,根据其初级轴突终末的位置以及μ-或δ-阿片受体的表达,对海马切片中位于海马伞层内的中间神经元进行了分类。这些阿片受体亚型的激活在大多数中间神经元中产生外向电流,这与其抑制作用一致。事后形态学分析显示,那些大量支配锥体细胞体层的中间神经元更有可能表达μ-阿片受体,而轴突在锥体细胞树突层分支的细胞更有可能表达δ-阿片受体,这是由外向电流的产生所定义的。中间神经元投射的这种形态学分离表明,μ受体的激活会减少GABA释放到锥体细胞体上,从而增加其兴奋性和输出。相反,通过δ受体激活对中间神经元的抑制会通过减少这些结构的GABA能抑制来放大传入到锥体细胞树突的信号。