Functional architecture of the forebrain cholinergic system in rodents.

Laszlo Zaborszky, Peter Varsanyi, Kevin Alloway, Candice Chavez, Matthew Gielow, Peter Gombkoto, Hideki Kondo, Zoltan Nadasdy
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Abstract

The basal forebrain cholinergic system (BFCS) participates in functions that are global across the brain, such as sleep-wake cycles, but also participates in capacities that are more behaviorally and anatomically specific, including sensory perception. To better understand the underlying organization principles of the BFCS, more and higher quality anatomical data and analysis is needed. Here, we created a "virtual Basal Forebrain", combining data from numerous rats with cortical retrograde tracer injections into a common 3D reference coordinate space and developed a "spatial density correlation" methodology to analyze patterns in BFCS cortical projection targets, revealing that the BFCS is organized into three principal networks: somatosensory-motor, auditory, and visual. Within each network, clusters of cholinergic cells with increasing complexity innervate cortical targets. These networks represent hierarchically organized building blocks that may enable the BFCS to coordinate spatially selective signaling, including parallel modulation of multiple functionally interconnected yet diverse groups of cortical areas.

啮齿动物前脑胆碱能系统的功能结构。
基底前脑胆碱能系统(BFCS)参与了整个大脑的整体功能,如睡眠-觉醒周期,但也参与了行为和解剖学上更为特殊的能力,包括感官知觉。要想更好地了解 BFCS 的基本组织原理,需要更多、更高质量的解剖学数据和分析。在这里,我们创建了一个 "虚拟基底前脑",将大量大鼠皮层逆行示踪剂注射的数据整合到一个共同的三维参考坐标空间,并开发了一种 "空间密度相关 "方法来分析基底前脑皮层投射目标的模式,揭示了基底前脑皮层分为三个主要网络:躯体感觉运动网络、听觉网络和视觉网络。在每个网络中,胆碱能细胞群的复杂性不断增加,并支配着皮层目标。这些网络代表了分层组织的构件,可使 BFCS 协调空间选择性信号传递,包括对多个功能相互关联但又各不相同的皮层区域组进行平行调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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