星爆无长突细胞网络中的方向选择性模型。

A model of direction selectivity in the starburst amacrine cell network.

作者信息

Enciso Germán A, Rempe Michael, Dmitriev Andrey V, Gavrikov Konstantin E, Terman David, Mangel Stuart C

机构信息

Mathematics Department, University of California, Irvine, 510H Rowland Hall, Irvine, CA 92617, USA.

出版信息

J Comput Neurosci. 2010 Jun;28(3):567-78. doi: 10.1007/s10827-010-0238-3. Epub 2010 Jun 4.

DOI:10.1007/s10827-010-0238-3

PMID:20524107

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2880707/

Abstract

Displaced starburst amacrine cells (SACs) are retinal interneurons that exhibit GABA( A ) receptor-mediated and Cl (-) cotransporter-mediated, directionally selective (DS) light responses in the rabbit retina. They depolarize to stimuli that move centrifugally through the receptive field surround and hyperpolarize to stimuli that move centripetally through the surround (Gavrikov et al, PNAS 100(26):16047-16052, 2003, PNAS 103(49):18793-18798, 2006). They also play a key role in the activity of DS ganglion cells (DS GC; Amthor et al, Vis Neurosci 19:495-509 2002; Euler et al, Nature 418:845-852, 2002; Fried et al, Nature 420:411- 414, 2002; Gavrikov et al, PNAS 100(26):16047-16052, 2003, PNAS 103(49):18793-18798, 2006; Lee and Zhou, Neuron 51:787-799 2006; Yoshida et al, Neuron 30:771-780, 2001). In this paper we present a model of strong DS behavior of SACs which relies on the GABA-mediated communication within a tightly interconnected network of these cells and on the glutamate signal that the SACs receive from bipolar cells (a presynaptic cell that receives input from cones). We describe how a moving light stimulus can produce a large, sustained depolarization of the SAC dendritic tips that point in the direction that the stimulus moves (i.e., centrifugal motion), but produce a minimal depolarization of the dendritic tips that point in the opposite direction (i.e., centripetal motion). This DS behavior, which is quantified based on the relative size and duration of the depolarizations evoked by stimulus motion at dendritic tips pointing in opposite directions, is robust to changes of many different parameter values and consistent with experimental data. In addition, the DS behavior is strengthened under the assumptions that the Cl(-) cotransporters Na( + )-K( + )-Cl( -) and K( + )-Cl( -) are located in different regions of the SAC dendritic tree (Gavrikov et al, PNAS 103(49):18793-18798, 2006) and that GABA evokes a long-lasting response (Gavrikov et al, PNAS 100(26):16047-16052, 2003, PNAS 103(49):18793-18798, 2006; Lee and Zhou, Neuron 51:787-799, 2006). A possible mechanism is discussed based on the generation of waves of local glutamate and GABA secretion, and their postsynaptic interplay as the waves travel between cell compartments.

摘要

移位的星爆无长突细胞（SACs）是视网膜中间神经元，在兔视网膜中表现出GABA(A)受体介导和Cl(-)共转运体介导的方向选择性（DS）光反应。它们对通过感受野周边离心移动的刺激发生去极化，而对通过周边向心移动的刺激发生超极化（加夫里科夫等人，《美国国家科学院院刊》100(26):16047 - 16052, 2003；《美国国家科学院院刊》103(49):18793 - 18798, 2006）。它们在DS神经节细胞（DS GC）的活动中也起着关键作用（阿姆索尔等人，《视觉神经科学》19:495 - 509, 2002；欧拉等人，《自然》418:845 - 852, 2002；弗里德等人，《自然》420:411 - 414, 2002；加夫里科夫等人，《美国国家科学院院刊》100(26):16047 - 16052, 2003；《美国国家科学院院刊》103(49):18793 - 18798, 2006；李和周，《神经元》51:787 - 799, 2006；吉田等人，《神经元》30:771 - 780, 2001）。在本文中，我们提出了一个SACs强DS行为的模型，该模型依赖于这些细胞紧密互连网络内的GABA介导的通信以及SACs从双极细胞（一种从视锥细胞接收输入的突触前细胞）接收的谷氨酸信号。我们描述了移动的光刺激如何能使指向刺激移动方向（即离心运动）的SAC树突末梢产生大的、持续的去极化，但使指向相反方向（即向心运动）的树突末梢产生最小的去极化。这种基于刺激运动在指向相反方向的树突末梢诱发的去极化的相对大小和持续时间进行量化的DS行为，对许多不同参数值的变化具有鲁棒性，并且与实验数据一致。此外，在Cl(-)共转运体Na( + ) - K( + ) - Cl( -)和K( + ) - Cl( -)位于SAC树突树的不同区域（加夫里科夫等人，《美国国家科学院院刊》103(49):18793 - 18798, 2006）以及GABA诱发持久反应（加夫里科夫等人，《美国国家科学院院刊》100(26):16047 - 16052, 2003；《美国国家科学院院刊》103(49):18793 - 18798, 2006；李和周，《神经元》51:787 - 799, 2006）的假设下，DS行为会增强。基于局部谷氨酸和GABA分泌波的产生以及它们在细胞区室之间传播时的突触后相互作用，讨论了一种可能的机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e0a/2880707/7d74c6819ff4/10827_2010_238_Fig1_HTML.jpg

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星爆无长突细胞网络中的方向选择性模型。

A model of direction selectivity in the starburst amacrine cell network.

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