新型苯甲酰脲类衍生物可降低 TRPM7 通道功能并抑制癌细胞迁移

Channels (Austin, Tex.) Pub Date : 2024-12-01 Epub Date: 2024-08-30 DOI:10.1080/19336950.2024.2396339
Xiaoding Zhang, Rui Zong, Yu Han, Xiaoming Li, Shuangyu Liu, Yixue Cao, Nan Jiang, Pingping Chen, Haixia Gao
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引用次数: 0

摘要

瞬时受体电位美司他丁 7 通道(TRPM7)是一种非选择性阳离子通道,在一些人类癌症组织中高度表达。TRPM7 参与了癌细胞的增殖、迁移、侵袭和上皮-间质转化(EMT)。调节 TRPM7 可能是治疗癌症的一种很有前景的治疗策略;然而,目前还缺乏高效且具有选择性的 TRPM7 药理调节剂。在本研究中,我们研究了一种新合成的苯甲酰脲衍生物 N- [4- (4, 6-dimethyl- 2-primyidinyloxy) - 3- methylphenyl] -N' - [2 -(dimethylamino)] benzoylurea(SUD)对癌细胞迁移和 EMT 以及 TRPM7 功能表达的影响。我们之前的研究表明,SUD 可诱导 MCF-7 和 BGC-823 细胞(分别为人类乳腺癌和胃癌细胞系)的细胞周期停滞和凋亡。在这里,我们发现 SUD 能明显减少这两种癌细胞的迁移。此外,SUD 还降低了这两种细胞中波形蛋白的表达,增加了 E-cadherin 的表达,表明 SUD 还降低了 EMT 的表达。重要的是,SUD 有可能以浓度依赖的方式降低 TRPM7 样电流,并通过 PI3K/Akt 信号通路降低 TRPM7 的表达。最后,我们利用分子对接模拟研究了 SUD 与 TRPM7 的潜在结合位点。总之,我们的研究表明,SUD是一种有效的TRPM7抑制剂,是一种通过抑制TRPM7的表达和功能来抑制乳腺癌和胃癌转移的潜在药物。
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Novel benzoylurea derivative decreases TRPM7 channel function and inhibits cancer cells migration.

The transient receptor potential melastatin 7 channel (TRPM7) is a nonselective cation channel highly expressed in some human cancer tissues. TRPM7 is involved in the proliferation, migration, invasion, and epithelial-mesenchymal transition (EMT) of cancer cells. Modulation of TRPM7 could be a promising therapeutic strategy for treating cancer; however, efficient and selective pharmacological TRPM7 modulators are lacking. In this study we investigated N- [4- (4, 6-dimethyl- 2-pyrimidinyloxy) - 3- methylphenyl] -N' - [2 -(dimethylamino)] benzoylurea (SUD), a newly synthesized benzoylurea derivative, for its effects on cancer cell migration and EMT and on functional expression of TRPM7. Our previous studies showed that SUD induces cell cycle arrest and apoptosis of MCF-7 and BGC-823 cells (human breast cancer and gastric cancer cell lines, respectively). Here, we show that SUD significantly decreased the migration of both types of cancer cells. Moreover, SUD decreased vimentin expression and increased E-cadherin expression in both cell types, indicating that EMT is also decreased by SUD. Importantly, SUD potentially reduced the TRPM7-like current in a concentration-dependent manner and decreased TRPM7 expression through the PI3K/Akt signaling pathway. Finally, molecular docking simulations were used to investigate potential SUD binding sites on TRPM7. In summary, our research demonstrated that SUD is an effective TRPM7 inhibitor and a potential agent to suppress the metastasis of breast and gastric cancer by inhibiting TRPM7 expression and function.

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