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新生儿缺氧缺血导致基板神经元功能回路改变。

Neonatal Hypoxia-Ischemia Causes Functional Circuit Changes in Subplate Neurons.

机构信息

Department of Biology, University of Maryland, College Park, MD, USA.

Neuroscience and Cognitive Science Program, University of Maryland, College Park, MD, USA.

出版信息

Cereb Cortex. 2019 Feb 1;29(2):765-776. doi: 10.1093/cercor/bhx358.

DOI:10.1093/cercor/bhx358
PMID:29365081
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6676960/
Abstract

Neonatal hypoxia-ischemia (HI) in the preterm human results in damage to subcortical developing white matter and cognitive impairments. Subplate neurons (SPNs) are among the first-born cortical neurons and are necessary for normal cerebral development. While moderate or severe HI at P1 in rats leads to SPN loss, it is unclear if HI, esp. forms not associated with overt cell loss lead to altered SPN circuits. Thus, we used two HI models with different severities in P1 rats. Cauterization of the common carotid artery (CCA) causes a largely transient and thus milder ischemia (HI-Caut) while CCA ligation causes more severe ischemia (HI-Lig). While HI-Lig caused subplate damage, HI-Caut did not cause overt histological damage on the light microscopic level. We used laser-scanning photostimulation (LSPS) in acute thalamocortical slices of auditory cortex during P5-10 to study the functional connectivity of SPNs. Both HI categories resulted in hyperconnectivity of excitatory and inhibitory circuits to SPNs. Thus, alterations on the circuit level are present in the absence of cell loss. Our results show that SPN circuits are uniquely susceptible to HI. Given the key developmental role of SPNs, our results suggest that altered SPN circuits might underlie the abnormal development of cortical function after HI.

摘要

早产儿缺氧缺血性(HI)损伤皮质下未成熟白质并导致认知障碍。基板神经元(SPN)是最早产生的皮质神经元,对正常脑发育是必需的。在 P1 时,中重度 HI 会导致 SPN 丢失,但是否存在不伴有明显细胞丢失的 HI 会导致 SPN 回路改变仍不清楚。因此,我们在 P1 大鼠中使用了两种具有不同严重程度的 HI 模型。颈总动脉(CCA)烧灼会导致大部分短暂且较轻的缺血(HI-Caut),而 CCA 结扎会导致更严重的缺血(HI-Lig)。虽然 HI-Lig 导致基板损伤,但 HI-Caut 在光镜水平上并未导致明显的组织学损伤。我们在 P5-10 期间使用急性听皮层丘脑皮质切片中的激光扫描光刺激(LSPS)来研究 SPN 的功能连接。两种 HI 类别均导致兴奋性和抑制性回路对 SPN 的超连接。因此,在没有细胞丢失的情况下,回路水平的改变是存在的。我们的结果表明 SPN 回路对 HI 特别敏感。鉴于 SPN 的关键发育作用,我们的结果表明,异常的 SPN 回路可能是 HI 后皮质功能异常发育的基础。

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