Zhong Li-Ting, Yuan Jing-Mei, Fu Wen-Li, Zhang Zi-Lin, Li Xiaoya, Ou Tian-Miao, Tan Jia-Heng, Huang Zhi-Shu, Chen Shuo-Bin
School of Pharmaceutical Sciences, Sun Yat-sen University, Guangzhou 510006, China.
Guangxi Key Laboratory of Natural Polymer Chemistry and Physics, College of Chemistry and Materials, Nanning Normal University, Nanning 530001, China.
Bioorg Chem. 2024 Dec;153:107842. doi: 10.1016/j.bioorg.2024.107842. Epub 2024 Sep 24.
c-MYC is a proto-oncogene ubiquitously overexpressed in various cancers. The formation of G-quadruplex (G4) structures within the c-MYC promoter region can regulate its transcription by interfering with protein binding. Consequently, small molecules targeting c-MYC G4 have emerged as promising anticancer agents. Herein, we report that sanguinarine (SG) and its analogs exhibit a high affinity for c-MYC G4 and potently modulate G4-protein interactions within a natural product library. Notably, SG uniquely enhances NM23-H2 binding to c-MYC G4, both in vitro and in cellular contexts, leading to c-MYC transcriptional repression and subsequent inhibition of cancer cell growth in an NM23-H2-dependent manner. Mechanistic studies and molecular modeling suggest that SG binds to the c-MYC G4/NM23-H2 interface, acting as an orthosteric stabilizer of the DNA-protein complex and preventing c-MYC transcription. Our findings identify SG as a potent c-MYC transcription inhibitor and provide a novel strategy for developing G4-targeting anticancer therapeutics through modulation of G4-protein interactions.
c-MYC是一种在多种癌症中普遍过度表达的原癌基因。c-MYC启动子区域内G-四链体(G4)结构的形成可通过干扰蛋白质结合来调节其转录。因此,靶向c-MYC G4的小分子已成为有前景的抗癌药物。在此,我们报道血根碱(SG)及其类似物对c-MYC G4具有高亲和力,并能在天然产物库中有效调节G4-蛋白质相互作用。值得注意的是,无论是在体外还是在细胞环境中,SG都能独特地增强NM23-H2与c-MYC G4的结合,导致c-MYC转录抑制,并随后以NM23-H2依赖的方式抑制癌细胞生长。机制研究和分子建模表明,SG与c-MYC G4/NM23-H2界面结合,作为DNA-蛋白质复合物的正构稳定剂并阻止c-MYC转录。我们的研究结果确定SG为一种有效的c-MYC转录抑制剂,并通过调节G4-蛋白质相互作用为开发靶向G4的抗癌治疗药物提供了一种新策略。
