依赖 Vangl 的 Wnt/平面细胞极性信号介导乳腺癌的集体运动和远处转移。

Kacey VanderVorst, Courtney A Dreyer, Jason Hatakeyama, George R R Bell, Julie A Learn, Anastasia L Berg, Maria Hernandez, Hyun Lee, Sean R Collins, Kermit L Carraway
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摘要

背景:鉴于人们日益认识到细胞集体运动在转移中的作用,深入了解潜在的信号通路对于将这些观察结果转化为晚期癌症的治疗至关重要。这里,我们研究了Wnt/平面细胞极性(Wnt/PCP)对乳腺肿瘤细胞运动性、细胞集体侵袭性和乳腺肿瘤转移的贡献:方法:在代表所有乳腺癌亚型的一系列乳腺癌细胞系和来自 MMTV-PyMT 小鼠的肿瘤组织细胞中,采用 Vangl1 和 Vangl2 基因敲除和过表达以及 Wnt5a 刺激来操纵 Wnt/PCP 信号。细胞迁移通过划痕和类器官侵袭实验进行评估,Vangl 蛋白亚细胞定位通过共聚焦荧光显微镜进行评估,RhoA 激活通过先进的 FRET 生物传感器进行荧光成像实时评估。通过确定条件性 Vangl2 基因敲除对 MMTV-NDL 小鼠乳腺肿瘤模型的影响,评估了 Wnt/PCP 抑制对乳腺肿瘤生长和转移的影响:结果:我们观察到,Vangl2敲除抑制了所有受检乳腺癌细胞系的运动性,而过表达则促进了集体迁移的MMTV-PyMT器官组织的侵袭性。依赖于Vangl2的RhoA活性实时定位于显示超突起前缘的运动性领导细胞亚群,Vangl蛋白定位于领导细胞内的领导细胞突起,肌动蛋白细胞骨架调节因子RhoA在集体迁移的领导细胞中优先被激活。乳腺特异性敲除 Vangl2 会显著减少 MMTV-NDL 小鼠的肺转移,但不会影响原发性肿瘤的生长特征:我们得出结论:在基因工程小鼠乳腺癌模型中,依赖 Vangl 的 Wnt/PCP 信号促进乳腺癌集体细胞迁移,而与乳腺癌亚型无关,并促进远处转移。我们的观察结果与以下模型相一致:在集体迁移过程中,定位在领导细胞前缘的 Vangl 蛋白通过 RhoA 作用于细胞骨架重排,而细胞骨架重排是促进迁移突起形成所必需的。
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Vangl-dependent Wnt/planar cell polarity signaling mediates collective breast carcinoma motility and distant metastasis.

Background: In light of the growing appreciation for the role of collective cell motility in metastasis, a deeper understanding of the underlying signaling pathways will be critical to translating these observations to the treatment of advanced cancers. Here, we examine the contribution of Wnt/planar cell polarity (Wnt/PCP), one of the non-canonical Wnt signaling pathways and defined by the involvement of the tetraspanin-like proteins Vangl1 and Vangl2, to breast tumor cell motility, collective cell invasiveness and mammary tumor metastasis.

Methods: Vangl1 and Vangl2 knockdown and overexpression and Wnt5a stimulation were employed to manipulate Wnt/PCP signaling in a battery of breast cancer cell lines representing all breast cancer subtypes, and in tumor organoids from MMTV-PyMT mice. Cell migration was assessed by scratch and organoid invasion assays, Vangl protein subcellular localization was assessed by confocal fluorescence microscopy, and RhoA activation was assessed in real time by fluorescence imaging with an advanced FRET biosensor. The impact of Wnt/PCP suppression on mammary tumor growth and metastasis was assessed by determining the effect of conditional Vangl2 knockout on the MMTV-NDL mouse mammary tumor model.

Results: We observed that Vangl2 knockdown suppresses the motility of all breast cancer cell lines examined, and overexpression drives the invasiveness of collectively migrating MMTV-PyMT organoids. Vangl2-dependent RhoA activity is localized in real time to a subpopulation of motile leader cells displaying a hyper-protrusive leading edge, Vangl protein is localized to leader cell protrusions within leader cells, and actin cytoskeletal regulator RhoA is preferentially activated in the leader cells of a migrating collective. Mammary gland-specific knockout of Vangl2 results in a striking decrease in lung metastases in MMTV-NDL mice, but does not impact primary tumor growth characteristics.

Conclusions: We conclude that Vangl-dependent Wnt/PCP signaling promotes breast cancer collective cell migration independent of breast tumor subtype and facilitates distant metastasis in a genetically engineered mouse model of breast cancer. Our observations are consistent with a model whereby Vangl proteins localized at the leading edge of leader cells in a migrating collective act through RhoA to mediate the cytoskeletal rearrangements required for pro-migratory protrusion formation.

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