神经嵴细胞通讯涉及通过 KikGR 的光转化揭示的细胞桥进行细胞质物质交换。

Neural crest cell communication involves an exchange of cytoplasmic material through cellular bridges revealed by photoconversion of KikGR.

机构信息

The Stowers Institute for Medical Research, Kansas City, Missouri 64110, USA.

出版信息

Dev Dyn. 2011 Jun;240(6):1391-401. doi: 10.1002/dvdy.22612. Epub 2011 Apr 5.

DOI:10.1002/dvdy.22612

PMID:21472890

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3092809/

Abstract

Neural crest (NC) cells invade the vertebrate embryo in ordered migratory streams, yet it is unclear whether cells communicate to maintain spacing and direction. Here, we examined NC cell communication in detail, using optical highlighting and photobleaching to monitor cell contact dynamics. We observed cytoplasmic transfer between NC cell neighbors through thin cellular bridges. The transfer of molecules between NC cells was bi-directional, not at equal rates, and independent of bridge dynamics. The cytoplasmic transfer was prevalent in recently divided NC cells. Molecular simulations, based on Brownian motion and measured cell volumes, predicted that simple diffusion could not account for observed cytoplasmic transfer rates. Cell tracking revealed that exchange of cytoplasmic material preceded the re-orientation of cells to the direction of migration. Our data suggest a mechanism by which NC cells communicate position information through the formation of cellular bridges that allow exchange of cytoplasmic material through active transport.

摘要

神经嵴（NC）细胞以有序的迁移流侵入脊椎动物胚胎，但尚不清楚细胞是否通过通信来维持间距和方向。在这里，我们使用光学突出显示和光漂白来详细检查 NC 细胞的通讯，以监测细胞接触动力学。我们观察到 NC 细胞之间通过薄的细胞桥进行细胞质转移。NC 细胞之间的分子转移是双向的，速率不均等，并且与桥的动力学无关。细胞质转移在最近分裂的 NC 细胞中很普遍。基于布朗运动和测量的细胞体积的分子模拟预测，简单的扩散不能解释观察到的细胞质转移率。细胞追踪显示，细胞质物质的交换先于细胞重新定向到迁移方向。我们的数据表明，NC 细胞通过形成允许通过主动运输交换细胞质物质的细胞桥来通过形成细胞桥来传递位置信息的机制。

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