Not a one-trick pony: Diverse connectivity and functions of the rodent lateral geniculate complex.

IF 1.1 4区医学 Q4 NEUROSCIENCES Visual Neuroscience Pub Date : 2017-01-01 DOI:10.1017/S0952523817000098

Aboozar Monavarfeshani, Ubadah Sabbagh, Michael A Fox

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Abstract

Often mislabeled as a simple relay of sensory information, the thalamus is a complicated structure with diverse functions. This diversity is exemplified by roles visual thalamus plays in processing and transmitting light-derived stimuli. Such light-derived signals are transmitted to the thalamus by retinal ganglion cells (RGCs), the sole projection neurons of the retina. Axons from RGCs innervate more than ten distinct nuclei within thalamus, including those of the lateral geniculate complex. Nuclei within the lateral geniculate complex of nocturnal rodents, which include the dorsal lateral geniculate nucleus (dLGN), ventral lateral geniculate nucleus (vLGN), and intergeniculate leaflet (IGL), are each densely innervated by retinal projections, yet, exhibit distinct cytoarchitecture and connectivity. These features suggest that each nucleus within this complex plays a unique role in processing and transmitting light-derived signals. Here, we review the diverse cytoarchitecture and connectivity of these nuclei in nocturnal rodents, in an effort to highlight roles for dLGN in vision and for vLGN and IGL in visuomotor, vestibular, ocular, and circadian function.

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不是一招鲜啮齿动物外侧膝曲复合体的多种连接和功能

丘脑常常被误认为是感官信息的简单传递者，其实它是一个具有多种功能的复杂结构。视觉丘脑在处理和传递光源刺激方面的作用就体现了这种多样性。这些光源信号由视网膜上唯一的投射神经元--视网膜神经节细胞（RGC）传输到丘脑。RGC 的轴突支配丘脑内十多个不同的核团，包括外侧膝曲复合体的核团。夜行性啮齿动物外侧膝曲复合体中的核，包括背侧外侧膝曲核（dLGN）、腹侧外侧膝曲核（vLGN）和膝曲间小叶（IGL），每个都受到视网膜投射神经元的密集神经支配，但却表现出不同的细胞结构和连接性。这些特征表明，这一复合体中的每个核在处理和传递光源信号方面都扮演着独特的角色。在此，我们回顾了这些细胞核在夜间啮齿动物中的不同细胞结构和连接性，旨在强调 dLGN 在视觉中的作用，以及 vLGN 和 IGL 在视觉运动、前庭、眼球和昼夜节律功能中的作用。

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来源期刊

Visual Neuroscience 医学-神经科学

CiteScore

2.20

自引率

5.30%

发文量

审稿时长

>12 weeks

期刊介绍： Visual Neuroscience is an international journal devoted to the publication of experimental and theoretical research on biological mechanisms of vision. A major goal of publication is to bring together in one journal a broad range of studies that reflect the diversity and originality of all aspects of neuroscience research relating to the visual system. Contributions may address molecular, cellular or systems-level processes in either vertebrate or invertebrate species. The journal publishes work based on a wide range of technical approaches, including molecular genetics, anatomy, physiology, psychophysics and imaging, and utilizing comparative, developmental, theoretical or computational approaches to understand the biology of vision and visuo-motor control. The journal also publishes research seeking to understand disorders of the visual system and strategies for restoring vision. Studies based exclusively on clinical, psychophysiological or behavioral data are welcomed, provided that they address questions concerning neural mechanisms of vision or provide insight into visual dysfunction.

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