猕猴认知控制背后的额叶皮层微电路

IF 3.4 3区医学 Q2 NEUROSCIENCES

Frontiers in Neural Circuits Pub Date : 2024-03-27 DOI:10.3389/fncir.2024.1389110

Beatriz Herrera, Jeffrey D. Schall, Jorge J. Riera

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引用次数: 0

摘要

在内侧额叶皮层记录到的错误相关负性和 N2 分量反映了认知控制的核心功能。虽然已知它们源于额叶前部区域，但其潜在的微电路机制仍然难以捉摸。关于微电路功能的大多数见解都来自于所谓的典型微电路模型的变体。这些微电路架构广泛基于对猴子、猫和啮齿动物的颗粒感觉皮层区域的研究。然而，有证据表明，不同物种之间的细胞结构存在显著差异，而且粒状感觉区与粒状感觉区相比，不同皮质层之间的功能关系也存在差异。在本小视图中，我们概述了灵长类动物粒状额叶皮层认知控制的一个初步微电路模型。该模型包含了主要的 GABA 能中间神经元亚类，具有特定的层状排列和锥体细胞上的靶区。我们强调第 5 层锥体细胞在错误和冲突检测中的作用。我们提出了几个必要的具体问题，以建立一个特定的额叶皮层固有微电路模型。

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Agranular frontal cortical microcircuit underlying cognitive control in macaques

The error-related negativity and an N2-component recorded over medial frontal cortex index core functions of cognitive control. While they are known to originate from agranular frontal areas, the underlying microcircuit mechanisms remain elusive. Most insights about microcircuit function have been derived from variations of the so-called canonical microcircuit model. These microcircuit architectures are based extensively on studies from granular sensory cortical areas in monkeys, cats, and rodents. However, evidence has shown striking cytoarchitectonic differences across species and differences in the functional relationships across cortical layers in agranular compared to granular sensory areas. In this minireview, we outline a tentative microcircuit model underlying cognitive control in the agranular frontal cortex of primates. The model incorporates the main GABAergic interneuron subclasses with specific laminar arrangements and target regions on pyramidal cells. We emphasize the role of layer 5 pyramidal cells in error and conflict detection. We offer several specific questions necessary for creating a specific intrinsic microcircuit model of the agranular frontal cortex.

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来源期刊

Frontiers in Neural Circuits NEUROSCIENCES-

CiteScore

6.00

自引率

5.70%

发文量

135

审稿时长

4-8 weeks

期刊介绍： Frontiers in Neural Circuits publishes rigorously peer-reviewed research on the emergent properties of neural circuits - the elementary modules of the brain. Specialty Chief Editors Takao K. Hensch and Edward Ruthazer at Harvard University and McGill University respectively, are supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics and the public worldwide. Frontiers in Neural Circuits launched in 2011 with great success and remains a "central watering hole" for research in neural circuits, serving the community worldwide to share data, ideas and inspiration. Articles revealing the anatomy, physiology, development or function of any neural circuitry in any species (from sponges to humans) are welcome. Our common thread seeks the computational strategies used by different circuits to link their structure with function (perceptual, motor, or internal), the general rules by which they operate, and how their particular designs lead to the emergence of complex properties and behaviors. Submissions focused on synaptic, cellular and connectivity principles in neural microcircuits using multidisciplinary approaches, especially newer molecular, developmental and genetic tools, are encouraged. Studies with an evolutionary perspective to better understand how circuit design and capabilities evolved to produce progressively more complex properties and behaviors are especially welcome. The journal is further interested in research revealing how plasticity shapes the structural and functional architecture of neural circuits.