Abstract
Thioredoxin system plays an important role in regulation of intracellular redox balance and various signaling pathways. Thioredoxin reductase (TrxR) is overexpressed in many cancer cells and has been identified as a potential target of anticancer drugs. Auranofin (AF) is potent TrxR inhibitor with novel in vitro and in vivo anticancer activities. Selenocystine (SeC) is a nutritionally available selenoamino acid with selective anticancer effects through induction of apoptosis. In the present study, we demonstrated the synergistic effects and the underlying molecular mechanisms of SeC in combination with AF on MCF-7 human breast cancer cells. The results showed that SeC and AF synergistically inhibited the cancer cell growth through induction of ROS-dependent apoptosis with the involvement of mitochondrial dysfunction. DNA damage-mediated p53 phosphorylation and down-regulation of phosphorylated AKT and ERK also contributed to cell apoptosis. Moreover, we demonstrated the important role of TrxR activity in the synergistic action of SeC and AF. Taken together, our results suggest the strategy to use SeC and AF in combination could be a highly efficient way to achieve anticancer synergism by targeting TrxR.
Highlights
Thioredoxin (Trx) system plays an important role in regulation of intracellular redox balance and various signaling pathways
thioredoxin reductase (TrxR) is overexpressed in many cancer cells and has been identified as a potential target of anticancer drugs
The synergistic effect of SeC and AF was examined on MCF-7 human breast adrenocarcinoma cells, a TrxR overexpression cell line
Summary
Thioredoxin (Trx) system plays an important role in regulation of intracellular redox balance and various signaling pathways. Thioredoxin reductase is a homodimetric protein essential for reduction and activation of Trx, each subunit of which has a redox active disulfide/dithiol and a tightly bound flavin adenine dinucleotide group that could mediate the transfer of reducing equivalents from NADPH to a disulfide bond of the substrates [9]. The inhibition of both cytosolic and mitochondrial TrxR can affect the intracellular redox balance and alter the mitochondrial membrane permeability and consequent release of the segregated proapoptotic factors, resulting in apoptosis of cancer cells [10]. TrxR has been identified as a potential target for anticancer drug design
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