体外下丘脑神经元网络振荡活动的突触调制
Synaptic modulation of oscillatory activity of hypothalamic neuronal networks in vitro.
作者信息
Misgeld U, Zeilhofer H U, Swandulla D
机构信息
I. Physiologisches Institut, Universität Heidelberg, Germany.
出版信息
Cell Mol Neurobiol. 1998 Feb;18(1):29-43. doi: 10.1023/a:1022571025830.
Abstract
- Rhythmic bursts of action potentials in neurosecretory cells are a key factor in hypothalamic neurosecretion. Rhythmicity and synchronization may be accomplished by pacemaker cells synaptically driving follower cells or by a network oscillator. 2. In this review we describe a hypothalamic cell culture which may serve as a model for a hypothalamic network oscillator. An overview is given of neurochemical phenotypes, synaptic mechanisms and their development, properties of receptors for fast synaptic transmission, and membrane properties of cells in dissociated rat embryonic hypothalamic culture. 3. Rhythmic activity spreads in the cultured network through synapses that release glutamate, activating a heteromultimeric AMPA-type receptor containing a GluR2 subunit which is associated with a high-conductance channel for Na+ and K+. Rhythmic activity is controlled by synapses that release GABA to activate GABAA receptors. The presumed function of the two receptor types is facilitated by their respective location, GABAA receptors predominating near the soma and AMPA receptors being abundant in dendrites. 4. Network oscillators may be more reliable for the presumed function than single-cell oscillators. They are controlled through synaptic modulation, which may prove to represent a process important for the release of hormones.
摘要
- 神经分泌细胞中动作电位的节律性爆发是下丘脑神经分泌的关键因素。节律性和同步性可通过起搏器细胞突触驱动跟随细胞或通过网络振荡器来实现。2. 在本综述中,我们描述了一种下丘脑细胞培养物,它可作为下丘脑网络振荡器的模型。概述了神经化学表型、突触机制及其发育、快速突触传递受体的特性以及解离的大鼠胚胎下丘脑培养物中细胞的膜特性。3. 节律性活动通过释放谷氨酸的突触在培养网络中传播,激活含有GluR2亚基的异源多聚体AMPA型受体,该受体与Na⁺和K⁺的高电导通道相关。节律性活动受释放GABA以激活GABAA受体的突触控制。两种受体类型的假定功能因其各自的位置而得到促进,GABAA受体在胞体附近占主导地位,而AMPA受体在树突中大量存在。4. 对于假定的功能,网络振荡器可能比单细胞振荡器更可靠。它们通过突触调制进行控制,这可能是一个对激素释放很重要的过程。
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