Circuits through prefrontal cortex, basal ganglia, and ventral anterior nucleus map pathways beyond motor control

Danqing Xiao , Helen Barbas
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引用次数: 38

Abstract

The ventral anterior (VA) nucleus of the thalamus is connected with prefrontal and premotor cortices and with the basal ganglia. Although classically associated with motor functions, recent evidence implicates the basal ganglia in cognition and emotion as well. Here, we used two complementary approaches to investigate whether the VA is a key link for pathways underlying cognitive and emotional processes through prefrontal cortices and the basal ganglia. After application of bidirectional tracers in functionally distinct lateral, medial, and orbitofrontal cortices, we found that projection neurons were embedded in much larger patches of axonal terminations found in the magnocellular part of VA (VAmc), and in the principal part of VA. Connections from medial prefrontal cortices occupied the dorsomedial and ventromedial VA, and orbitofrontal connections were found in ventrolateral VAmc. Moreover, about half of all projection neurons in orbitofrontal areas directed to the VA or VAmc were positive for calbindin but not parvalbumin, even though comparable populations of neurons were positive for each marker in the VA. We then applied tracers in VA and investigated simultaneously projections from all prefrontal areas, the internal segment of the globus pallidus (GPi), the substantia nigra reticulata (SNr), and the thalamic reticular nucleus. Projection neurons were most densely distributed in anterior cingulate areas 24 and 32, and dorsolateral areas 9 and 8, innervating the same VA sites that received projections from a large part of GPi and dorsal SNr. Nearly as many projection neurons originated from cortical layer V as from layer VI. There is evidence that cortical layer VI neurons innervate thalamic neurons that project focally to the middle cortical layers, whereas layer V neurons synapse with thalamic neurons projecting widely to cortical layer I. Projections from layer V to the VA may facilitate cortical recruitment for executive functions within a cognitive context through lateral prefrontal areas, and autonomic responses within an emotional context through anterior cingulate areas.

通过前额皮质、基底神经节和腹侧前核的回路绘制出运动控制之外的通路
丘脑腹前核与前额叶和运动前皮层以及基底神经节相连。尽管基底节区通常与运动功能有关,但最近的证据表明基底节区也与认知和情感有关。在这里,我们使用了两种互补的方法来研究VA是否是通过前额叶皮质和基底神经节的认知和情绪过程的关键环节。在功能不同的外侧、内侧和眶额皮质中应用双向示踪剂后,我们发现,在VA的大细胞部分(VAmc)和VA的主体部分,投射神经元嵌入了更大的轴突末端斑块。来自内侧前额叶皮质的连接占据了VA的背内侧和腹内侧,在腹外侧VAmc中发现了眶额连接。此外,大约一半的眶额区指向VA或VAmc的投射神经元calbindin阳性,而不是parvalbumin阳性,尽管在VA中有相当数量的神经元对每种标记物都呈阳性。我们随后在VA中应用示踪剂,并同时研究了来自所有前额叶区域、白球内段(GPi)、网状黑质(SNr)和丘脑网状核的投射。投射神经元最密集地分布在扣带前24区和32区以及背外侧9区和8区,支配着接收大部分GPi和背侧SNr投射的相同VA部位。来自皮层V层的投射神经元几乎与来自皮层VI层的一样多。有证据表明,皮层VI层神经元支配丘脑神经元,这些丘脑神经元集中投射到皮层中间层,而V层神经元与丘脑神经元广泛投射到皮层i层发生突触,从皮层V层投射到皮层i层,可能促进皮层在认知背景下通过外侧前额叶区募集执行功能。以及通过前扣带区在情绪环境下的自主神经反应。
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