TRPC3-mediated NFATc1 calcium signaling promotes triple negative breast cancer migration through regulating glypican-6 and focal adhesion.

IF 2.9 4区医学 Q2 PHYSIOLOGY

Pflugers Archiv : European journal of physiology Pub Date : 2024-10-22 DOI:10.1007/s00424-024-03030-y

Yan Wang, Xiaosheng Zhuang, Yanxiang Qi, Lung Yiu, Zhenping Li, Yuk Wah Chan, Xianji Liu, Suk Ying Tsang

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引用次数: 0

Abstract

Canonical transient receptor potential isoform 3 (TRPC3), a calcium-permeable non-selective cation channel, has been reported to be upregulated in breast cancers and a modulator of cell migration. Calcium-sensitive transcription factor NFATc1, which is important for cell migration, was shown to be frequently activated in triple negative breast cancer (TNBC) biopsy tissues. However, whether TRPC3-mediated calcium influx would activate NFATc1 and affect the migration of TNBC cells, and, if yes, the underlying mechanisms involved, remain to be investigated. By immunostaining followed by confocal microscopy, TNBC lines MDA-MB-231 and BT-549 were both found to express TRPC3 on their plasma membrane while ER⁺ line MCF-7 and HER2⁺ line SK-BR3 do not. Blockade of TRPC3 by pharmacological inhibitor Pyr3 or stable knockdown of TRPC3 by lentiviral vector both inhibited cell migration as measured by wound healing assay. Importantly, blocking TRPC3 by Pyr3 or knockdown of TRPC3 both caused the translocation of NFATc1 from the nucleus to the cytosol as revealed by confocal microscopy. Interestingly, NFATc1 was found to bind to the promoter of glypican 6 (GPC6) as determined by chromatin immunoprecipitation assay. Consistently, knockdown of TRPC3 decreased the expression of GPC6 as revealed by western blotting. Moreover, long-term knockdown of GPC6 by lentiviral vector also consistently decreased the migration of TNBC cells. Intriguingly, GPC6 proteins physically interact with vinculin in MDA-MB-231 as determined by co-immunoprecipitation. Blockade of TRPC3, knockdown of TRPC3 or knockdown of GPC6 all induced larger, stabilized actin-bound peripheral focal adhesion (FA) formations in TNBC cells as determined by co-staining of actin and vinculin followed by confocal microscopy. These large, stabilized actin-bound peripheral FAs indicated a defective FA turnover, and were reported to be responsible for impairing directed cell migration. Our results suggest that, in TNBC cells, calcium influx through TRPC3 channel positively regulates NFATc1 nuclear translocation and GPC6 expression, which maintains the dynamics of FA turnover and optimal cell migration. Our study reveals a novel TRPC3-NFATc1-GPC6-vinculin signaling cascade in maintaining the migration of TNBC cells.

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TRPC3 介导的 NFATc1 钙信号通过调节 glypican-6 和病灶粘附促进三阴性乳腺癌的迁移。

典型瞬时受体电位同工酶3（TRPC3）是一种钙离子渗透性非选择性阳离子通道，据报道在乳腺癌中上调，是细胞迁移的调节因子。在三阴性乳腺癌（TNBC）活检组织中，对细胞迁移非常重要的钙敏感转录因子 NFATc1 经常被激活。然而，TRPC3介导的钙离子流入是否会激活NFATc1并影响TNBC细胞的迁移，以及如果会，其中涉及的潜在机制仍有待研究。通过免疫染色和共聚焦显微镜观察，发现 TNBC 细胞株 MDA-MB-231 和 BT-549 的质膜上都表达 TRPC3，而 ER+ 细胞株 MCF-7 和 HER2+ 细胞株 SK-BR3 则不表达。用药理抑制剂 Pyr3 阻断 TRPC3 或用慢病毒载体稳定敲除 TRPC3 都能通过伤口愈合试验抑制细胞迁移。重要的是，共聚焦显微镜显示，用 Pyr3 阻断 TRPC3 或敲除 TRPC3 都会导致 NFATc1 从细胞核转位到细胞质。有趣的是，通过染色质免疫共沉淀试验发现，NFATc1 与糖蛋白 6（GPC6）的启动子结合。同样，Western 印迹法显示，敲除 TRPC3 会降低 GPC6 的表达。此外，通过慢病毒载体长期敲除 GPC6 也会持续减少 TNBC 细胞的迁移。有趣的是，通过共免疫沉淀法测定，GPC6 蛋白与 MDA-MB-231 中的 vinculin 有物理相互作用。阻断 TRPC3、敲除 TRPC3 或敲除 GPC6 都会诱导 TNBC 细胞形成更大的、稳定的肌动蛋白结合的外周灶粘附（FA），这是由肌动蛋白和 vinculin 的共染以及共聚焦显微镜确定的。这些大的、稳定的肌动蛋白结合的外周灶粘连表明灶粘连周转有缺陷，据报道，它们是影响细胞定向迁移的原因。我们的研究结果表明，在 TNBC 细胞中，通过 TRPC3 通道流入的钙离子可正向调节 NFATc1 核转位和 GPC6 的表达，从而维持 FA 的动态周转和最佳细胞迁移。我们的研究揭示了维持 TNBC 细胞迁移的 TRPC3-NFATc1-GPC6-vinculin 新型信号级联。

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来源期刊

Pflugers Archiv : European journal of physiology 医学-生理学

CiteScore

8.80

自引率

2.20%

发文量

121

审稿时长

4-8 weeks

期刊介绍： Pflügers Archiv European Journal of Physiology publishes those results of original research that are seen as advancing the physiological sciences, especially those providing mechanistic insights into physiological functions at the molecular and cellular level, and clearly conveying a physiological message. Submissions are encouraged that deal with the evaluation of molecular and cellular mechanisms of disease, ideally resulting in translational research. Purely descriptive papers covering applied physiology or clinical papers will be excluded. Papers on methodological topics will be considered if they contribute to the development of novel tools for further investigation of (patho)physiological mechanisms.