Thioredoxin system is an attractive target to overcome radioresistance in cancer therapy. The redox enzyme thioredoxin reductase (TrxR) plays a vital role in restoring cellular thiol redox balance disrupted by radiation-induced reactive oxygens species (ROS) generation and oxidative damage. In this study, a series of 1,2,5-selenadiazoles have been synthesized and identified as highly effective inhibitors of TrxR to disrupt the intracellular redox balance, and thus significantly enhanced the sensitivity of cancer cells to X-ray. Upon irradiation, 1,2,5-selenadiazoles displayed a marked synergistic inhibitory effect on radioresistant A375 melanoma cell through enhancement of ROS overproduction, and subsequent induction of ROS-promoted apoptotic pathways, which triggered then mitochondrial dysfunction and caspase activation, finally resulted in augment of radiotherapeutic efficacy. Interestingly, we also found the interaction sites between 1,2,5-selenadiazole and the model peptide of TrxR, which can be confirmed by MALDI-ToF-MS. These results clearly demonstrate TrxR as a potential target for therapy of radioresistant cancers, and selenadiazole derivatives may be attractive radiosensitizing agent by targeting TrxR.
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Article Synopsis
- Isoselenocyanates and (Z)-2-oxo-N-phenylpropanehydrazonoyl chlorides are crucial in creating important chemical intermediates and complex heterocyclic compounds through efficient synthetic methods.
- The research focuses on using an inverse electron demand 1,3-dipolar cycloaddition reaction to produce various 5-arylimino-1,3,4-selenadiazole derivatives under mild conditions while achieving good yields.
- Structural analysis was performed using techniques like multinuclear NMR, mass spectrometry, and single-crystal X-ray diffraction to confirm the molecular structures and geometries of the resultant compounds.
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