Mebendazole targets essential proteins in glucose metabolism leading gastric cancer cells to death

癌细胞 程序性细胞死亡 细胞毒性T细胞 癌症研究 细胞凋亡 细胞培养 癌症 化学 生物 药理学 生物化学 体外 遗传学
作者
Emerson Lucena da Silva,Felipe Pantoja Mesquita,Dyane Rocha Aragão,Adrhyann Jullyanne de Sousa Portilho,Aline Diogo Marinho,Laís Lacerda Brasil de Oliveira,Luína Benevides Lima,Maria Elisabete Amaral de Moraes,Pedro Filho Noronha Souza,Raquel Carvalho Montenegro
出处
期刊:Toxicology and Applied Pharmacology [Elsevier BV]
卷期号:475: 116630-116630 被引量:9
标识
DOI:10.1016/j.taap.2023.116630
摘要

Gastric cancer (GC) is among the most-diagnosed and deadly malignancies worldwide. Deregulation in cellular bioenergetics is a hallmark of cancer. Based on the importance of metabolic reprogramming for the development and cancer progression, inhibitors of cell metabolism have been studied as potential candidates for chemotherapy in oncology. Mebendazole (MBZ), an antihelminthic approved by FDA, has shown antitumoral activity against cancer cell lines. However, its potential in the modulation of tumoral metabolism remains unclear. Results evidenced that the antitumoral and cytotoxic mechanism of MBZ in GC cells is related to the modulation of the mRNA expression of glycolic targets SLC2A1, HK1, GAPDH, and LDHA. Moreover, in silico analysis has shown that these genes are overexpressed in GC samples, and this increase in expression is related to decreased overall survival rates. Molecular docking revealed that MBZ modifies the protein structure of these targets, which may lead to changes in their protein function. In vitro studies also showed that MBZ induces alterations in glucose uptake, LDH's enzymatic activity, and ATP production. Furthermore, MBZ induced morphologic and intracellular alterations typical of the apoptotic cell death pathway. Thus, this data indicated that the cytotoxic mechanism of MBZ is related to an initial modulation of the tumoral metabolism in the GC cell line. Altogether, our results provide more evidence about the antitumoral mechanism of action of MBZ towards GC cells and reveal metabolic reprogramming as a potential area in the discovery of new pharmacological targets for GC chemotherapy.
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