Zhang Min, Song Aihong, Lai Siqiang, Qiu Lisha, Huang Yunlong, Chen Qiang, Zhu Bing, Xu Dongsheng, Zheng Jialin C
Laboratory of Neuroimmunology and Regenerative Medicine, Tongji University School of Medicine Affiliated Shanghai Tenth People's Hospital, 200072, Shanghai, China.
Tongji University School of Medicine, 200092, Shanghai, China.
Biomaterials. 2015 Dec;72:163-171. doi: 10.1016/j.biomaterials.2015.08.052. Epub 2015 Aug 31.
The polarization and migration of neural progenitor cells (NPCs) are critical for embryonic brain development and neurogenesis after brain injury. Although stromal-derived factor-1α (SDF-1α, CXCL12) and its receptor CXCR4 are well-known to mediate the migration of NPCs in the developing brain, the dynamic cellular processes and structure-related molecular events remain elusive. Transwell and microfluidic-based assays are classical assays to effectively study cellular migration. However, both of them have limitations in the analysis of a single cell. In this study, we modified the stripe assay and extended its applications in the study of NPC polarization and intracellular molecular events associated with CXCL12-mediated migration. In response to localized CXCL12, NPCs formed lamellipodia in the stripe assay. Furthermore, CXCR4 and Rac1 quickly re-distributed to the area of lamellipodia, indicating their roles in NPC polarization upon CXCL12 stimulation. Although the chemokine stripes in the assay provided concentration gradients that can be best used to study cellular polarization and migration through immunocytochemistry, they can also generate live imaging data with comparable quality. In conclusion, stripe assay is a visual, dynamic and economical tool to study cellular mobility and its related molecule mechanisms.
神经祖细胞(NPCs)的极化和迁移对于胚胎脑发育以及脑损伤后的神经发生至关重要。尽管基质细胞衍生因子-1α(SDF-1α,CXCL12)及其受体CXCR4介导发育中大脑里NPCs的迁移已广为人知,但动态细胞过程和与结构相关的分子事件仍不清楚。基于Transwell和微流控的分析方法是有效研究细胞迁移的经典方法。然而,它们在单细胞分析方面都存在局限性。在本研究中,我们改进了划痕试验并扩展了其在研究NPC极化以及与CXCL12介导的迁移相关的细胞内分子事件中的应用。在划痕试验中,响应局部的CXCL12,NPCs形成了片状伪足。此外,CXCR4和Rac1迅速重新分布到片状伪足区域,表明它们在CXCL12刺激下NPC极化过程中的作用。尽管试验中的趋化因子条带提供了浓度梯度,通过免疫细胞化学最适合用于研究细胞极化和迁移,但它们也能生成质量相当的实时成像数据。总之,划痕试验是一种可视化、动态且经济的工具,用于研究细胞迁移及其相关分子机制。