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Disruption of the mitochondrial thioredoxin system as a cell death mechanism of cationic triphenylmethanes.

Free radical biology & medicine (2011-01-11)
Xu Zhang, Yujuan Zheng, Levi E Fried, Yatao Du, Sergio J Montano, Allie Sohn, Benjamin Lefkove, Lars Holmgren, Jack L Arbiser, Arne Holmgren, Jun Lu
RESUMEN

Alterations in mitochondrial structure and function are a hallmark of cancer cells compared to normal cells and thus targeting mitochondria has emerged as an novel approach to cancer therapy. The mitochondrial thioredoxin 2 (Trx2) system is critical for cell viability, but its role in cancer biology is not well understood. Recently some cationic triphenylmethanes such as brilliant green (BG) and gentian violet were shown to have antitumor and antiangiogenic activity with unknown mechanisms. Here we demonstrate that BG killed cells at nanomolar concentrations and targeted mitochondrial Trx2, which was oxidized and degraded. HeLa cells were more sensitive to BG than fibroblasts. In HeLa cells, Trx2 down-regulation by siRNA resulted in increased sensitivity to BG, whereas for fibroblasts, the same treatments had no effect. BG was observed to accumulate in mitochondria and cause a rapid and dramatic decrease in mitochondrial Trx2 protein. With a redox Western blot method, we found that treatment with BG caused oxidation of both Trx1 and Trx2, followed by release of cytochrome c and apoptosis-inducing factor from the mitochondria into the cytosol. Moreover, this treatment resulted in an elevation of the mRNA level of Lon protease, a protein quality control enzyme in the mitochondrial matrix, suggesting that the oxidized Trx2 may be degraded by Lon protease.

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Sigma-Aldrich
Brilliant Green, Dye content ≥85 %
Sigma-Aldrich
Brilliant Green, certified by the Biological Stain Commission