活体多光子成像揭示了多细胞流是人乳腺肿瘤体内细胞迁移的重要组成部分。

IntraVital Pub Date : 2013-04-01 DOI:10.4161/intv.25294
Antonia Patsialou, Jose Javier Bravo-Cordero, Yarong Wang, David Entenberg, Huiping Liu, Michael Clarke, John S Condeelis
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引用次数: 139

摘要

转移是乳腺癌患者死亡的主要原因。细胞迁移是转移级联几乎每一步的重要组成部分,特别是在原发肿瘤内部侵袭的早期阶段。在本报告中,我们使用活体多光子显微镜观察人类乳腺肿瘤细胞在原发活体肿瘤中的不同迁移模式。我们使用了MDA-MB-231细胞的异种移植物肿瘤,以及原位注射患者源性乳腺肿瘤细胞的低传代异种移植物肿瘤。人体肿瘤细胞在体内的直接可视化显示了原发肿瘤内部的两种高速迁移模式:(1)单细胞和(2)多细胞流(即细胞以单个队列相互跟随,但没有内聚细胞连接)。关键的是,我们发现单个细胞的流动而非随机迁移与靠近血管、内渗和血液中循环肿瘤细胞数量升高显著相关。最后,尽管这两种人类肿瘤来源于不同的遗传背景,但我们发现它们的迁移肿瘤细胞表现出协调的基因表达变化,导致相同的终端表型,包括激活肌动蛋白聚合和肌球蛋白收缩。我们的数据是第一个直接可视化和评估活体患者来源的乳房异种移植肿瘤的体内迁移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intravital multiphoton imaging reveals multicellular streaming as a crucial component of in vivo cell migration in human breast tumors.

Metastasis is the main cause of death in breast cancer patients. Cell migration is an essential component of almost every step of the metastatic cascade, especially the early step of invasion inside the primary tumor. In this report, we have used intravital multiphoton microscopy to visualize the different migration patterns of human breast tumor cells in live primary tumors. We used xenograft tumors of MDA-MB-231 cells as well as a low passage xenograft tumor from orthotopically injected patient-derived breast tumor cells. Direct visualization of human tumor cells in vivo shows two patterns of high-speed migration inside primary tumors: (1) single cells and (2) multicellular streams (i.e., cells following each other in a single file but without cohesive cell junctions). Critically, we found that only streaming and not random migration of single cells was significantly correlated with proximity to vessels, with intravasation and with numbers of elevated circulating tumor cells in the bloodstream. Finally, although the two human tumors were derived from diverse genetic backgrounds, we found that their migratory tumor cells exhibited coordinated gene expression changes that led to the same end-phenotype of enhanced migration involving activating actin polymerization and myosin contraction. Our data are the first direct visualization and assessment of in vivo migration within a live patient-derived breast xenograft tumor.

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