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糖尿病大鼠后代的皮质细胞结构受损及深层神经元兴奋性降低。

Impaired Cortical Cytoarchitecture and Reduced Excitability of Deep-Layer Neurons in the Offspring of Diabetic Rats.

作者信息

Valle-Bautista Rocío, Márquez-Valadez Berenice, Fragoso-Cabrera América D, García-López Guadalupe, Díaz Néstor Fabián, Herrera-López Gabriel, Griego Ernesto, Galván Emilio J, Arias-Montaño José-Antonio, Molina-Hernández Anayansi

机构信息

Departamento de Fisiología, Biofísica y Neurociencias, Centro de Investigación y de Estudios Avanzados del Instituto Politécnico Nacional, Mexico City, Mexico.

Laboratorio de Investigación en Células Troncales y Biología del Desarrollo, Departamento de Fisiología y Desarrollo Celular, Subdirección de Investigación Biomédica, Instituto Nacional de Perinatología Isidro Espinosa de los Reyes, Mexico City, Mexico.

出版信息

Front Cell Dev Biol. 2020 Sep 16;8:564561. doi: 10.3389/fcell.2020.564561. eCollection 2020.

DOI:10.3389/fcell.2020.564561
PMID:33042999
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7527606/
Abstract

Maternal diabetes has been related to low verbal task scores, impaired fine and gross motor skills, and poor performance in graphic and visuospatial tasks during childhood. The primary motor cortex is important for controlling motor functions, and embryos exposed to high glucose show changes in cell proliferation, migration, and differentiation during corticogenesis. However, the existing studies do not discriminate between embryos with or without neural tube defects, making it difficult to conclude whether the reported changes are related to neural tube defects or other anomalies. Furthermore, postnatal effects on central nervous system cytoarchitecture and function have been scarcely addressed. Through molecular, biochemical, morphological, and electrophysiological approaches, we provide evidence of impaired primary motor cerebral cortex lamination and neuronal function in pups from diabetic rats, showing an altered distribution of SATB2, FOXP2, and TBR1, impaired cell migration and polarity, and decreased excitability of deep-layer cortical neurons, suggesting abnormalities in cortico-cortical and extra-cortical innervation. Furthermore, phase-plot analysis of action potentials suggests changes in the activity of potassium channels. These results indicate that high-glucose insult during development promotes complex changes in migration, neurogenesis, cell polarity establishment, and dendritic arborization, which in turn lead to reduced excitability of deep-layer cortical neurons.

摘要

孕期糖尿病与儿童期语言任务得分低、精细和粗大运动技能受损以及图形和视觉空间任务表现不佳有关。初级运动皮层对控制运动功能很重要,暴露于高血糖环境的胚胎在皮质发生过程中会出现细胞增殖、迁移和分化的变化。然而,现有研究并未区分有无神经管缺陷的胚胎,因此很难确定所报道的变化是否与神经管缺陷或其他异常有关。此外,出生后对中枢神经系统细胞结构和功能的影响几乎未得到研究。通过分子、生化、形态学和电生理方法,我们证明了糖尿病大鼠幼崽的初级运动脑皮层分层和神经元功能受损,表现为SATB2、FOXP2和TBR1分布改变、细胞迁移和极性受损以及深层皮质神经元兴奋性降低,提示皮质-皮质和皮质外神经支配存在异常。此外,动作电位的相位图分析表明钾通道活性发生了变化。这些结果表明,发育期间的高糖损伤会促使迁移、神经发生、细胞极性建立和树突分支形成发生复杂变化,进而导致深层皮质神经元兴奋性降低。

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