VX-509 attenuates the stemness characteristics of colorectal cancer stem-like cells by regulating the epithelial-mesenchymal transition through Nodal/Smad2/3 signaling.

IF 3.6 3区医学 Q3 CELL & TISSUE ENGINEERING

World journal of stem cells Pub Date : 2024-02-26 DOI:10.4252/wjsc.v16.i2.207

Yun Yuan, Xu-Fan Zhang, Yu-Chen Li, Hong-Qing Chen, Tian Wen, Jia-Lian Zheng, Zi-Yi Zhao, Qiong-Ying Hu

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引用次数: 0

Abstract

Background: Colorectal cancer stem cells (CCSCs) are heterogeneous cells that can self-renew and undergo multidirectional differentiation in colorectal cancer (CRC) patients. CCSCs are generally accepted to be important sources of CRC and are responsible for the progression, metastasis, and therapeutic resistance of CRC. Therefore, targeting this specific subpopulation has been recognized as a promising strategy for overcoming CRC.

Aim: To investigate the effect of VX-509 on CCSCs and elucidate the underlying mechanism.

Methods: CCSCs were enriched from CRC cell lines by in conditioned serum-free medium. Western blot, Aldefluor, transwell and tumorigenesis assays were performed to verify the phenotypic characteristics of the CCSCs. The anticancer efficacy of VX-509 was assessed in HCT116 CCSCs and HT29 CCSCs by performing cell viability analysis, colony formation, sphere formation, flow cytometry, and western blotting assessments in vitro and tumor growth, immunohistochemistry and immunofluorescence assessments in vivo.

Results: Compared with parental cells, sphere cells derived from HCT116 and HT29 cells presented increased expression of stem cell transcription factors and stem cell markers and were more potent at promoting migration and tumorigenesis, demonstrating that the CRC sphere cells displayed CSC features. VX-509 inhibited the tumor malignant biological behavior of CRC-stem-like cells, as indicated by their proliferation, migration and clonality in vitro, and suppressed the tumor of CCSC-derived xenograft tumors in vivo. Besides, VX-509 suppressed the CSC characteristics of CRC-stem-like cells and inhibited the progression of epithelial-mesenchymal transition (EMT) signaling in vitro. Nodal was identified as the regulatory factor of VX-509 on CRC stem-like cells through analyses of differentially expressed genes and CSC-related database information. VX-509 markedly downregulated the expression of Nodal and its downstream phosphorylated Smad2/3 to inhibit EMT progression. Moreover, VX-509 reversed the dedifferentiation of CCSCs and inhibited the progression of EMT induced by Nodal overexpression.

Conclusion: VX-509 prevents the EMT process in CCSCs by inhibiting the transcription and protein expression of Nodal, and inhibits the dedifferentiated self-renewal of CCSCs.

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VX-509通过Nodal/Smad2/3信号调节上皮-间质转化，从而减轻结直肠癌干样细胞的干性特征。

背景：结直肠癌干细胞（CCSCs）是一种异型细胞，在结直肠癌（CRC）患者体内可以自我更新并进行多向分化。人们普遍认为，CCSCs 是 CRC 的重要来源，是 CRC 进展、转移和耐药性的罪魁祸首。目的：研究 VX-509 对 CCSCs 的影响并阐明其潜在机制：方法：用无血清条件培养基从 CRC 细胞系中富集 CCSCs。方法：用无血清培养基从 CRC 细胞系中富集 CCSCs，并通过 Western 印迹、Aldefluor、transwell 和肿瘤发生实验来验证 CCSCs 的表型特征。通过体外的细胞活力分析、集落形成、球体形成、流式细胞术、Western印迹检测以及体内的肿瘤生长、免疫组化和免疫荧光检测，评估了VX-509在HCT116 CCSCs和HT29 CCSCs中的抗癌效果：结果：与亲代细胞相比，来自HCT116和HT29细胞的球形细胞的干细胞转录因子和干细胞标志物表达增加，促进迁移和肿瘤发生的能力更强，这表明CRC球形细胞具有CSC特征。VX-509 可抑制 CRC 干样细胞的肿瘤恶性生物学行为，具体表现为体外的增殖、迁移和克隆性，并可抑制 CCSC 衍生的异种移植瘤在体内的生长。此外，VX-509 还能抑制 CRC 干样细胞的 CSC 特性，并抑制体外上皮-间质转化（EMT）信号的传导。通过分析差异表达基因和CSC相关数据库信息，发现Nodal是VX-509对CRC干样细胞的调控因子。VX-509 显著下调了 Nodal 及其下游磷酸化 Smad2/3 的表达，从而抑制了 EMT 的进展。此外，VX-509还能逆转CCSCs的去分化，抑制Nodal过表达诱导的EMT进展：结论：VX-509通过抑制Nodal的转录和蛋白表达，阻止了CCSCs的EMT过程，并抑制了CCSCs的去分化自我更新。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

World journal of stem cells Biochemistry, Genetics and Molecular Biology-Molecular Biology

CiteScore

7.80

自引率

4.90%

发文量

750

期刊介绍： The World Journal of Stem Cells (WJSC) is a leading academic journal devoted to reporting the latest, cutting-edge research progress and findings of basic research and clinical practice in the field of stem cells. It was launched on December 31, 2009 and is published monthly (12 issues annually) by BPG, the world''s leading professional clinical medical journal publishing company.