1. Revealing PACMA 31 as a new chemical type TrxR inhibitor to promote cancer cell apoptosis.
- Author
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Xu, Qianhe, Zhang, Junmin, Zhao, Zhengjia, Chu, Yajun, and Fang, Jianguo
- Subjects
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PROTEIN disulfide isomerase , *CANCER cells , *REACTIVE oxygen species , *GLUTATHIONE reductase , *THIOREDOXIN , *APOPTOSIS - Abstract
Thioredoxin reductase (TrxR) is a pivotal regulator of redox homeostasis, while dysregulation of redox homeostasis is a hallmark for cancer cells. Thus, there is considerable potential to inhibit the aberrantly upregulated TrxR in cancer cells to discover selective cancer therapeutic agents. Nevertheless, the structural types of TrxR inhibitors presented currently are still relatively limited. We herein report that PACMA 31, previously reported to inhibit protein disulfide isomerase (PDI), is a potent TrxR inhibitor. PACMA 31 possesses a pharmacophore scaffold that is structurally different from the announced TrxR inhibitors and exhibits effective cytotoxicity against cervical cancer cells. Our results reveal that PACMA 31 selectively inhibits TrxR over the related glutathione reductase (GR) and in the presence of reduced glutathione (GSH). Further studies with mutant enzyme and molecular docking suggest that the propynamide fragment of PACMA 31 interacts covalently with the selenocysteine residue of TrxR. Moreover, PACMA 31 effectively and selectively curbs TrxR activity in cells and further stimulates the production of reactive oxygen species (ROS) at low micromolar concentrations, which in turn triggers the accumulation of oxidized thioredoxin (Trx) and GSSG in cells. Follow-up studies demonstrate that PACMA 31 targets TrxR in cells to induce oxidative stress-mediated cancer cell apoptosis. Our results provide a new structural type of TrxR inhibitor that may serve as a useful probe for investigating the biology of TrxR-implicated pathways, and uncover a new target of PACMA 31 that contributes to it becoming a candidate for cancer treatment. [Display omitted] • PACMA 31 is identified as a novel structural type of TrxR inhibitor. • PACMA 31 selectively inhibits TrxR over the related GR. • Inhibiting TrxR and inducing oxidative stress contribute to the cytotoxicity of PACMA 31. • Targeting of TrxR by PACMA 31 explains the unprecedented function of PACMA 31. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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