一种能够使神经胶质细胞与炎症刺激物相互作用的血脑屏障倒置模型。

An inverted blood-brain barrier model that permits interactions between glia and inflammatory stimuli.

机构信息

Tulane National Primate Research Center, Covington, LA, USA.

出版信息

J Neurosci Methods. 2012 May 30;207(1):91-6. doi: 10.1016/j.jneumeth.2012.03.015. Epub 2012 Apr 6.

DOI:10.1016/j.jneumeth.2012.03.015

PMID:22484463

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3348346/

Abstract

The blood-brain barrier (BBB) is increasingly being recognized as a site of special scientific importance. Numerous models of the BBB have been constructed over the past years with increasingly mechanistic studies of fundamental questions of cell biology and neuroimmunology. However, there has been a limiting factor of not being able to perform real-time studies of BBB function utilizing 3D models. Equally, real-time models have been limited mainly to 2D models comprised solely of endothelial cells (ECs). To measure changes in the electrical resistance across a BBB model, when adding inflammatory or stem cells which will interact with co-cultured glial cells has, to date, been beyond the capabilities of models. We have cultured an inverted BBB model with ECs on electrodes which are on the lower surface of xCELLigence Cell Invasion Migration plates. Glial cells were cultured in the basal well with foot processes extending through the filters to make contact with the ECs. SIV-infected macrophages decreased electrical resistance of the EC monolayer when added to the "parenchymal" face of the model. We present a novel inverted blood-brain barrier model that allow real time analyses of endothelial cell adhesion during modeled neuroinflammation.

摘要

血脑屏障（BBB）越来越被认为是一个具有特殊科学意义的部位。过去几年中已经构建了许多 BBB 模型，对细胞生物学和神经免疫学的基本问题进行了越来越深入的机制研究。然而，一直存在一个限制因素，即无法利用 3D 模型实时研究 BBB 的功能。同样，实时模型主要限于仅由内皮细胞（EC）组成的 2D 模型。为了测量添加与共培养的神经胶质细胞相互作用的炎性细胞或干细胞后 BBB 模型的电阻变化，迄今为止，这已经超出了模型的能力范围。我们已经在 xCELLigence 细胞侵袭迁移板的下表面的电极上培养了带有 EC 的倒置 BBB 模型。将神经胶质细胞培养在基底腔内，其足突穿过过滤器与 EC 接触。当将 SIV 感染的巨噬细胞添加到模型的“实质”面时，会降低 EC 单层的电阻。我们提出了一种新颖的倒置血脑屏障模型，可实时分析神经炎症模型中内皮细胞的黏附。

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