外苍白球的细胞和回路复杂性。
Cell and circuit complexity of the external globus pallidus.
机构信息
Department of Neuroscience, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.
出版信息
Nat Neurosci. 2023 Jul;26(7):1147-1159. doi: 10.1038/s41593-023-01368-7. Epub 2023 Jun 19.
Abstract
The external globus pallidus (GPe) of the basal ganglia has been underappreciated owing to poor understanding of its cells and circuits. It was assumed that the GPe consisted of a homogeneous neuron population primarily serving as a 'relay station' for information flowing through the indirect basal ganglia pathway. However, the advent of advanced tools in rodent models has sparked a resurgence in interest in the GPe. Here, we review recent data that have unveiled the cell and circuit complexity of the GPe. These discoveries have revealed that the GPe does not conform to traditional views of the basal ganglia. In particular, recent evidence confirms that the afferent and efferent connections of the GPe span both the direct and the indirect pathways. Furthermore, the GPe displays broad interconnectivity beyond the basal ganglia, consistent with its emerging multifaceted roles in both motor and non-motor functions. In summary, recent data prompt new proposals for computational rules of the basal ganglia.
摘要
由于对外侧苍白球(GPe)的细胞和回路了解甚少,其一直未受到重视。人们曾认为 GPe 由均质神经元组成,主要作为穿过间接基底神经节通路的信息的“中继站”。然而,啮齿动物模型中先进工具的出现再次激起了人们对 GPe 的兴趣。在这里,我们回顾了最近的数据,这些数据揭示了 GPe 的细胞和回路复杂性。这些发现表明,GPe 不符合基底神经节的传统观点。特别是,最近的证据证实 GPe 的传入和传出连接既跨越直接通路也跨越间接通路。此外,GPe 显示出超出基底神经节的广泛的相互连接性,与其在运动和非运动功能中的新兴多方面作用一致。总之,最近的数据促使人们对基底神经节的计算规则提出了新的建议。
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