Development of the basic architecture of neocortical circuitry in the human fetus as revealed by the coupling spatiotemporal pattern of synaptogenesis along with microstructure and macroscale in vivo MR imaging.

IF 2.7 3区 医学 Q1 ANATOMY & MORPHOLOGY Brain Structure & Function Pub Date : 2024-08-05 DOI:10.1007/s00429-024-02838-9
Ivica Kostović
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Abstract

In humans, a quantifiable number of cortical synapses appears early in fetal life. In this paper, we present a bridge across different scales of resolution and the distribution of synapses across the transient cytoarchitectonic compartments: marginal zone (MZ), cortical plate (CP), subplate (SP), and in vivo MR images. The tissue of somatosensory cortex (7-26 postconceptional weeks (PCW)) was prepared for electron microscopy, and classified synapses with a determined subpial depth were used for creating histograms matched to the histological sections immunoreacted for synaptic markers and aligned to in vivo MR images (1.5 T) of corresponding fetal ages (maternal indication). Two time periods and laminar patterns of synaptogenesis were identified: an early and midfetal two-compartmental distribution (MZ and SP) and a late fetal three-compartmental distribution (CP synaptogenesis). During both periods, a voluminous, synapse-rich SP was visualized on the in vivo MR. Another novel finding concerns the phase of secondary expansion of the SP (13 PCW), where a quantifiable number of synapses appears in the upper SP. This lamina shows a T2 intermediate signal intensity below the low signal CP. In conclusion, the early fetal appearance of synapses shows early differentiation of putative genetic mechanisms underlying the synthesis, transport and assembly of synaptic proteins. "Pioneering" synapses are likely to play a morphogenetic role in constructing of fundamental circuitry architecture due to interaction between neurons. They underlie spontaneous, evoked, and resting state activity prior to ex utero experience. Synapses can also mediate genetic and environmental triggers, adversely altering the development of cortical circuitry and leading to neurodevelopmental disorders.

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通过突触发生的时空耦合模式以及微观结构和宏观尺度的活体磁共振成像,揭示人类胎儿新皮层电路基本结构的发展。
人类在胎儿早期就出现了数量可量化的皮层突触。在本文中,我们展示了一座跨越不同分辨率尺度的桥梁,以及突触在瞬时细胞结构区(边缘区(MZ)、皮质板(CP)、亚板(SP))和体内磁共振图像中的分布情况。体感皮层组织(受孕后 7-26 周(PCW))被制备用于电子显微镜观察,已确定皮层下深度的分类突触被用于创建与突触标记免疫反应的组织学切片相匹配的直方图,并与相应胎龄(母体指示)的活体 MR 图像(1.5 T)对齐。研究发现了突触发生的两个时期和层状模式:胎儿早期和中期的两室分布(MZ 和 SP)和胎儿晚期的三室分布(CP 突触发生)。在这两个时期,体内磁共振成像都能看到一个体积巨大、突触丰富的SP。另一项新发现涉及SP的二次扩张期(13 PCW),此时SP上部出现了数量可量化的突触。这一薄层显示出低于低信号 CP 的 T2 中间信号强度。总之,胎儿早期出现的突触显示了突触蛋白合成、运输和组装的潜在遗传机制的早期分化。由于神经元之间的相互作用,"先驱 "突触很可能在基本电路结构的构建中发挥形态发生作用。它们是自发活动、诱发活动和静息状态活动的基础。突触还可以介导遗传和环境诱因,对大脑皮层回路的发育产生不利影响,并导致神经发育障碍。
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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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