Evolutionary scaling and cognitive correlates of primate frontal cortex microstructure.

IF 2.7 3区 医学 Q1 ANATOMY & MORPHOLOGY
Brain Structure & Function Pub Date : 2024-11-01 Epub Date: 2023-10-27 DOI:10.1007/s00429-023-02719-7
Cheryl D Stimpson, Jeroen B Smaers, Mary Ann Raghanti, Kimberley A Phillips, Bob Jacobs, William D Hopkins, Patrick R Hof, Chet C Sherwood
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引用次数: 0

Abstract

Investigating evolutionary changes in frontal cortex microstructure is crucial to understanding how modifications of neuron and axon distributions contribute to phylogenetic variation in cognition. In the present study, we characterized microstructural components of dorsolateral prefrontal cortex, orbitofrontal cortex, and primary motor cortex from 14 primate species using measurements of neuropil fraction and immunohistochemical markers for fast-spiking inhibitory interneurons, large pyramidal projection neuron subtypes, serotonergic innervation, and dopaminergic innervation. Results revealed that the rate of evolutionary change was similar across these microstructural variables, except for neuropil fraction, which evolves more slowly and displays the strongest correlation with brain size. We also found that neuropil fraction in orbitofrontal cortex layers V-VI was associated with cross-species variation in performance on experimental tasks that measure self-control. These findings provide insight into the evolutionary reorganization of the primate frontal cortex in relation to brain size scaling and its association with cognitive processes.

Abstract Image

灵长类动物额叶皮层微观结构的进化尺度和认知相关性。
研究额叶皮层微观结构的进化变化对于理解神经元和轴突分布的改变如何促进认知系统发育变化至关重要。在本研究中,我们使用神经胶质分数和快速尖峰抑制性中间神经元、大锥体投射神经元亚型、5-羟色胺能神经支配和多巴胺能神经支配的免疫组织化学标记物,对14种灵长类动物的背外侧前额叶皮层、眶额皮层和初级运动皮层的微观结构成分进行了表征。结果显示,这些微观结构变量的进化变化率相似,除了神经纤毛部分,它进化得更慢,与大脑大小的相关性最强。我们还发现,眶额皮层V-VI层的神经胶质分数与测量自我控制的实验任务表现的跨物种差异有关。这些发现深入了解了灵长类动物额叶皮层的进化重组与大脑大小缩放及其与认知过程的关系。
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来源期刊
Brain Structure & Function
Brain Structure & Function 医学-解剖学与形态学
CiteScore
6.00
自引率
6.50%
发文量
168
审稿时长
8 months
期刊介绍: Brain Structure & Function publishes research that provides insight into brain structure−function relationships. Studies published here integrate data spanning from molecular, cellular, developmental, and systems architecture to the neuroanatomy of behavior and cognitive functions. Manuscripts with focus on the spinal cord or the peripheral nervous system are not accepted for publication. Manuscripts with focus on diseases, animal models of diseases, or disease-related mechanisms are only considered for publication, if the findings provide novel insight into the organization and mechanisms of normal brain structure and function.
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