From Individual to Population: Circuit Organization of Pyramidal Tract and Intratelencephalic Neurons in Mouse Sensorimotor Cortex.

IF 11 1区 综合性期刊 Q1 Multidisciplinary Research Pub Date : 2024-10-07 eCollection Date: 2024-01-01 DOI:10.34133/research.0470
Mei Yao, Ayizuohere Tudi, Tao Jiang, Xu An, Xueyan Jia, Anan Li, Z Josh Huang, Hui Gong, Xiangning Li, Qingming Luo
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Abstract

The sensorimotor cortex participates in diverse functions with different reciprocally connected subregions and projection-defined pyramidal neuron types therein, while the fundamental organizational logic of its circuit elements at the single-cell level is still largely unclear. Here, using mouse Cre driver lines and high-resolution whole-brain imaging to selectively trace the axons and dendrites of cortical pyramidal tract (PT) and intratelencephalic (IT) neurons, we reconstructed the complete morphology of 1,023 pyramidal neurons and generated a projectome of 6 subregions within the sensorimotor cortex. Our morphological data revealed substantial hierarchical and layer differences in the axonal innervation patterns of pyramidal neurons. We found that neurons located in the medial motor cortex had more diverse projection patterns than those in the lateral motor and sensory cortices. The morphological characteristics of IT neurons in layer 5 were more complex than those in layer 2/3. Furthermore, the soma location and morphological characteristics of individual neurons exhibited topographic correspondence. Different subregions and layers were composed of different proportions of projection subtypes that innervate downstream areas differentially. While the axonal terminals of PT neuronal population in each cortical subregion were distributed in specific subdomains of the superior colliculus (SC) and zona incerta (ZI), single neurons selectively innervated a combination of these projection targets. Overall, our data provide a comprehensive list of projection types of pyramidal neurons in the sensorimotor cortex and begin to unveil the organizational principle of these projection types in different subregions and layers.

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从个体到群体:小鼠感觉运动皮层中锥体束和脑内神经元的环路组织
感觉运动皮层参与多种功能,其中有不同的相互连接的亚区域和投射定义的锥体神经元类型,而单细胞水平的电路元件的基本组织逻辑在很大程度上仍不清楚。在这里,我们利用小鼠 Cre 驱动系和高分辨率全脑成像技术选择性地追踪了皮层锥体束(PT)和脑内(IT)神经元的轴突和树突,重建了 1,023 个锥体神经元的完整形态,并生成了感觉运动皮层内 6 个亚区域的投射组。我们的形态学数据揭示了锥体神经元轴突支配模式的巨大层次和层间差异。我们发现,与外侧运动皮层和感觉皮层的神经元相比,位于内侧运动皮层的神经元具有更多样化的投射模式。第 5 层 IT 神经元的形态特征比第 2/3 层的神经元更为复杂。此外,单个神经元的体节位置和形态特征呈现出地形对应关系。不同亚区和不同层由不同比例的投射亚型组成,它们支配的下游区域也不同。虽然每个皮层亚区的 PT 神经元群的轴突末梢分布在上丘(SC)和内侧带(ZI)的特定亚区,但单个神经元选择性地支配这些投射目标的组合。总之,我们的数据提供了一个全面的感觉运动皮层锥体神经元投射类型列表,并开始揭示这些投射类型在不同亚区和层中的组织原理。
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来源期刊
Research
Research Multidisciplinary-Multidisciplinary
CiteScore
13.40
自引率
3.60%
发文量
0
审稿时长
14 weeks
期刊介绍: Research serves as a global platform for academic exchange, collaboration, and technological advancements. This journal welcomes high-quality research contributions from any domain, with open arms to authors from around the globe. Comprising fundamental research in the life and physical sciences, Research also highlights significant findings and issues in engineering and applied science. The journal proudly features original research articles, reviews, perspectives, and editorials, fostering a diverse and dynamic scholarly environment.
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