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纹状体突触可塑性的二分法多巴胺能控制

Dichotomous dopaminergic control of striatal synaptic plasticity.

作者信息

Shen Weixing, Flajolet Marc, Greengard Paul, Surmeier D James

机构信息

Department of Physiology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611, USA.

出版信息

Science. 2008 Aug 8;321(5890):848-51. doi: 10.1126/science.1160575.

DOI:10.1126/science.1160575
PMID:18687967
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2833421/
Abstract

At synapses between cortical pyramidal neurons and principal striatal medium spiny neurons (MSNs), postsynaptic D1 and D2 dopamine (DA) receptors are postulated to be necessary for the induction of long-term potentiation and depression, respectively-forms of plasticity thought to underlie associative learning. Because these receptors are restricted to two distinct MSN populations, this postulate demands that synaptic plasticity be unidirectional in each cell type. Using brain slices from DA receptor transgenic mice, we show that this is not the case. Rather, DA plays complementary roles in these two types of MSN to ensure that synaptic plasticity is bidirectional and Hebbian. In models of Parkinson's disease, this system is thrown out of balance, leading to unidirectional changes in plasticity that could underlie network pathology and symptoms.

摘要

在皮质锥体神经元与主要纹状体中等棘状神经元(MSN)之间的突触处,据推测,突触后D1和D2多巴胺(DA)受体分别是诱导长时程增强和长时程抑制所必需的,而长时程增强和长时程抑制是被认为构成联想学习基础的可塑性形式。由于这些受体仅限于两个不同的MSN群体,这一假设要求突触可塑性在每种细胞类型中都是单向的。利用来自DA受体转基因小鼠的脑片,我们发现情况并非如此。相反,DA在这两种类型的MSN中发挥互补作用,以确保突触可塑性是双向的且符合赫布理论。在帕金森病模型中,这个系统失去平衡,导致可塑性的单向变化,这可能是网络病理和症状的基础。

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本文引用的文献

[1]
Dendritic excitability and synaptic plasticity.

Physiol Rev. 2008-4

[2]
Dopamine receptor activation is required for corticostriatal spike-timing-dependent plasticity.

J Neurosci. 2008-3-5

[3]
Cholinergic modulation of Kir2 channels selectively elevates dendritic excitability in striatopallidal neurons.

Nat Neurosci. 2007-11

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Neuromodulators control the polarity of spike-timing-dependent synaptic plasticity.

Neuron. 2007-9-20

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Combined activation of L-type Ca2+ channels and synaptic transmission is sufficient to induce striatal long-term depression.

J Neurosci. 2007-6-20

[6]
Coactivation of pre- and postsynaptic signaling mechanisms determines cell-specific spike-timing-dependent plasticity.

Neuron. 2007-4-19

[7]
D1 and D2 dopamine-receptor modulation of striatal glutamatergic signaling in striatal medium spiny neurons.

Trends Neurosci. 2007-5

[8]
Dopamine-mediated regulation of corticostriatal synaptic plasticity.

Trends Neurosci. 2007-5

[9]
Endocannabinoid-mediated rescue of striatal LTD and motor deficits in Parkinson's disease models.

Nature. 2007-2-8

[10]
Spine Ca2+ signaling in spike-timing-dependent plasticity.

J Neurosci. 2006-10-25

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