Shi Sai, Li Jia-Chen, Zhou Xiao-Yu, Li Zhen-Lu, Wang Ya-Xin, Xu Bing-Hong, Ye Sheng
Department of Medical and Pharmaceutical Informatics, Hebei Medical University, Shijiazhuang, 050011, China.
Frontiers Science Center for Synthetic Biology (Ministry of Education), Haihe Laboratory of Sustainable Chemical Transformations, Tianjin Key Laboratory of Function and Application of Biological Macromolecular Structures, School of Life Sciences, Tianjin University, Tianjin, 300072, China.
Acta Pharmacol Sin. 2025 Mar 17. doi: 10.1038/s41401-025-01517-7.
Human monocarboxylate transporters (MCTs) are crucial for tumour cell glycolysis. Inhibiting MCT-mediated lactate transport can suppress the proliferation of solid tumours and enhance the efficacy of the immune system against tumours. Despite the importance of this transporter, the molecular mechanism of lactate transport by MCT1 remains elusive, hindering the development of targeted therapies. Here, we used principal component analysis to elucidate the allosteric mechanisms of the MCT family. Enhanced sampling revealed that specific residue pairs (E46-K289 and E376-R143) are essential for maintaining the inwards and outwards conformations of MCT1. Quantum chemical calculations and umbrella sampling demonstrated that lactate molecules and protons are co-transported sequentially, with K38 and R313 playing key roles in lactate translocation. On the basis of these data, we conducted a drug screening campaign targeting the core pocket of MCT1 and identified silybin as a selective MCT1 inhibitor. Silybin had significant inhibitory effects on tumour cells with high MCT1 expression. These findings provide a comprehensive understanding of the lactate transport mechanism of MCT1 and lay the groundwork for the rational design of antitumour drugs targeting MCT1.
人类单羧酸转运蛋白(MCTs)对肿瘤细胞糖酵解至关重要。抑制MCT介导的乳酸转运可抑制实体瘤的增殖,并增强免疫系统对肿瘤的疗效。尽管这种转运蛋白很重要,但MCT1介导乳酸转运的分子机制仍不清楚,这阻碍了靶向治疗的发展。在这里,我们使用主成分分析来阐明MCT家族的变构机制。增强采样显示,特定的残基对(E46-K289和E376-R143)对于维持MCT1的内向和外向构象至关重要。量子化学计算和伞形采样表明,乳酸分子和质子依次协同转运,K38和R313在乳酸转运中起关键作用。基于这些数据,我们针对MCT1的核心口袋进行了药物筛选,并确定水飞蓟宾为选择性MCT1抑制剂。水飞蓟宾对MCT1高表达的肿瘤细胞有显著抑制作用。这些发现为全面了解MCT1的乳酸转运机制奠定了基础,并为合理设计靶向MCT1的抗肿瘤药物奠定了基础。
