Redox-Active Selenium Compounds—From Toxicity and Cell Death to Cancer Treatment

Misra, Santosh; Boylan, Mallory; Selvam, Arun Kumar; Spallholz, Julian E.; Björnstedt, Mikael

doi:10.3390/nu7053536

Cited by 234 publications

(191 citation statements)

References 77 publications

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“…There exist two key metabolites of Se, which are critical for chemoprevention/ chemotherapy. 48 Hydrogen selenide necessary for the formation of selenoproteins results mainly from inorganic selenocompounds such as selenate or selenite, respectively, and methylselenol, which is generated from organic selenocompounds. In this study, the pro-oxidant MSA, a synthetic selenocompound and precursor of methylselenol, induced MHC class I surface expression not only in B16F10 melanoma cells, but also on several other tumor cell lines, including human cancer cells.…”

Section: Discussionmentioning

confidence: 99%

Modulation of MHC class I surface expression in B16F10 melanoma cells by methylseleninic acid

et al. 2017

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The essential trace element selenium (Se) might play a role in cancer prevention as well as for cancer therapy. Its metabolite methylselenol is able to kill cells through distinct mechanisms including induction of reactive oxygen species, DNA damage and apoptosis. Since methylselenol affects innate immune responses by modulating the expression of NKG2D ligands, the aim of this study was to determine whether the methylselenol generating compound methylseleninic acid (MSA) influences the expression of the MHC class I surface antigens and growth properties thereby reverting immune escape.Treatment of B16F10 melanoma cells expressing low basal MHC class I surface antigens with dimethyldiselenide (DMDSe) and MSA, but not with selenomethionine and selenite resulted in a dosedependent upregulation of MHC class I cell surface antigens. This was due to a transcriptional upregulation of some major components of the antigen processing machinery (APM) and the interferon (IFN) signaling pathway and accompanied by a reduced migration of B16F10 melanoma cells in the presence of MSA. Comparative "ome"-based profilings of untreated and MSA-treated melanoma cells linked the anti-oxidative response system with MHC class I antigen processing. Since MSA treatment enhanced MHC class I surface expression also on different human tumors cell lines, MSA might affect the malignant phenotype of various tumor cells by restoring MHC class I APM component expression due to an altered redox status and by partially mimicking IFN-gamma signaling thereby providing a novel mechanism for the chemotherapeutic potential of methylselenol generating Se compounds.

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Section: Discussionmentioning

confidence: 99%

Modulation of MHC class I surface expression in B16F10 melanoma cells by methylseleninic acid

et al. 2017

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“…Today, it is generally admitted that oxidative stress is a determinant factor of selenium cytotoxicity as well as anticarcinogenic properties (17,64). Pro-oxidant properties of selenium originate from the in vivo conversion of seleno-compounds into H 2 Se or into selenols (RSeH: SeCys, MeSe, GSeH,…), which are readily oxidized by oxygen with concomitant generation of ROS (Figure 2A and B) (9,(65)(66)(67)(68).…”

Section: Selenium and Oxidative Stressmentioning

confidence: 99%

“…Because cancer cells generally exhibit an increased vulnerability to ROS-producing compounds, there is an increasing interest in designing anticancer agents promoting oxidative stress. Among redox active drugs, selenite is a promising candidate as a cancer therapeutic agent (17,151). The next step consists in evaluating its toxicity in cancer patients and the therapeutic potential of redoxactive selenium compounds.…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

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Recent advances in the mechanism of selenoamino acids toxicity in eukaryotic cells

Lazard

Dauplais

Blanquet

et al. 2017

Biomolecular Concepts

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Selenium is an essential trace element due to its incorporation into selenoproteins with important biological functions. However, at high doses it is toxic. Selenium toxicity is generally attributed to the induction of oxidative stress. However, it has become apparent that the mode of action of seleno-compounds varies, depending on its chemical form and speciation. Recent studies in various eukaryotic systems, in particular the model organism Saccharomyces cerevisiae, provide new insights on the cytotoxic mechanisms of selenomethionine and selenocysteine. This review first summarizes current knowledge on reactive oxygen species (ROS)-induced genotoxicity of inorganic selenium species. Then, we discuss recent advances on our understanding of the molecular mechanisms of selenocysteine and selenomethionine cytotoxicity. We present evidences indicating that both oxidative stress and ROSindependent mechanisms contribute to selenoamino acids cytotoxicity. These latter mechanisms include disruption of protein homeostasis by selenocysteine misincorporation in proteins and/or reaction of selenols with protein thiols.

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“…Inorganic selenium (sodium selenite) has been found to prevent oxidative stress caused by methamphetamine in neuronal cells [5] and by As 2 O 3 in fish hepatoma cells [6], as well as t-butyl hydroperoxide-induced DNA damage in human mesenchymal stromal cells [7]. Other forms (organic compounds and nanoparticles) of selenium have also been studied and the research has revealed the dependence of the effects on the used form [3,[8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Lithium as a prooxidant? A possible protective role of selenium – in vitro study

Musik

Kiełczykowska

Rajtar

et al. 2017

Ann Agric Environ Med.

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Redox-Active Selenium Compounds—From Toxicity and Cell Death to Cancer Treatment

Cited by 234 publications

References 77 publications

Modulation of MHC class I surface expression in B16F10 melanoma cells by methylseleninic acid

Modulation of MHC class I surface expression in B16F10 melanoma cells by methylseleninic acid

Recent advances in the mechanism of selenoamino acids toxicity in eukaryotic cells

Lithium as a prooxidant? A possible protective role of selenium – in vitro study

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