微流控装置中神经簇的体外形成以及作为基质衍生生长因子1梯度函数的细胞迁移。

In vitro formation of neuroclusters in microfluidic devices and cell migration as a function of stromal-derived growth factor 1 gradients.

作者信息

McCutcheon Sean, Unachukwu Uchenna, Thakur Ankush, Majeska Robert, Redenti Stephen, Vazquez Maribel

机构信息

a The City University of New York, City College of New York , New York , NY , USA.

b The City University of New York, Lehman College , Bronx , NY , USA.

出版信息

Cell Adh Migr. 2017 Jan 2;11(1):1-12. doi: 10.1080/19336918.2015.1131388. Epub 2016 Jan 8.

DOI:10.1080/19336918.2015.1131388

PMID:26744909

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5308225/

Abstract

Central nervous system (CNS) cells cultured in vitro as neuroclusters are useful models of tissue regeneration and disease progression. However, the role of cluster formation and collective migration of these neuroclusters to external stimuli has been largely unstudied in vitro. Here, 3 distinct CNS cell types, medulloblastoma (MB), medulloblastoma-derived glial progenitor cells (MGPC), and retinal progenitor cells (RPC), were examined with respect to cluster formation and migration in response to Stromal-Derived Growth Factor (SDF-1). A microfluidic platform was used to distinguish collective migration of neuroclusters from that of individual cells in response to controlled concentration profiles of SDF-1. Cell lines were also compared with respect to expression of CXCR4, the receptor for SDF-1, and the gap junction protein Connexin 43 (Cx43). All cell types spontaneously formed clusters and expressed both CXCR4 and Cx43. RPC clusters exhibited collective chemotactic migration (i.e. movement as clusters) along SDF-1 concentration gradients. MGPCs clusters did not exhibit adhesion-based migration, and migration of MB clusters was inconsistent. This study demonstrates how controlled microenvironments can be used to examine the formation and collective migration of CNS-derived neuroclusters in varied cell populations.

摘要

体外培养为神经簇的中枢神经系统（CNS）细胞是组织再生和疾病进展的有用模型。然而，这些神经簇的簇形成以及向外部刺激的集体迁移的作用在体外很大程度上尚未得到研究。在这里，针对髓母细胞瘤（MB）、髓母细胞瘤衍生的神经胶质祖细胞（MGPC）和视网膜祖细胞（RPC）这3种不同的中枢神经系统细胞类型，研究了它们在响应基质衍生生长因子（SDF-1）时的簇形成和迁移情况。使用微流控平台来区分神经簇与单个细胞在响应SDF-1的受控浓度分布时的集体迁移。还比较了细胞系在SDF-1受体CXCR4和间隙连接蛋白连接蛋白43（Cx43）的表达方面的情况。所有细胞类型都自发形成簇，并同时表达CXCR4和Cx43。RPC簇沿着SDF-1浓度梯度表现出集体趋化迁移（即作为簇移动）。MGPC簇未表现出基于黏附的迁移，MB簇的迁移则不一致。这项研究展示了如何利用受控微环境来研究不同细胞群体中中枢神经系统衍生的神经簇的形成和集体迁移。

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