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Wrobel J.K.,University of Miami | Power R.,Nutrigenomics Research Center | Toborek M.,University of Miami | Toborek M.,Academy of Physical Education in Katowice
IUBMB Life | Year: 2016

Selenium (Se) is an essential micronutrient that exerts multiple and complex effects on human health. Se is essential for human well-being largely due to its potent antioxidant, anti-inflammatory, and antiviral properties. The physiological functions of Se are carried out by selenoproteins, in which Se is specifically incorporated as the amino acid, selenocysteine. Importantly, both beneficial and toxic effects of Se have been reported suggesting that the mode of action of Se is strictly chemical form and concentration dependent. Additionally, there is a relatively narrow window between Se deficiency and toxicity and growing evidence suggests that Se health effects depend greatly on the baseline level of this micronutrient. Thus, Se supplementation is not an easy task and requires an individualized approach. It is essential that we continue to explore and better characterize Se containing compounds and mechanisms of action, which could be crucial for disease prevention and treatment. © 2015 International Union of Biochemistry and Molecular Biology. Source

Wrobel J.K.,University of Miami | Seelbach M.J.,University of Kentucky | Chen L.,Mount Sinai School of Medicine | Power R.F.,Nutrigenomics Research Center | Toborek M.,University of Miami
Nutrition and Cancer | Year: 2013

Metastases are the leading cause of cancer mortality and their development may be affected by diet. The aim of this study was to compare the effects of dietary supplementation with different selenium (Se) compounds on the dynamics of brain metastasis development in a novel mouse model. Mice were fed experimental diets enriched (1 mg/kg) with sodium selenite (Se-S), seleno-1-methionine (Se-Meth), a yeast-derived organic form of selenium (Se-Yeast), or a control diet (Se < 0.05 mg/kg) for 20 wk. At the end of the feeding period, animals were injected with luciferase-tagged K1735 (K1735-Luc) melanoma cells into the brain vasculature. The development of brain metastatic tumors was monitored for 2 wk following injection. Mice bearing brain metastatic tumors and fed Se-Yeast- or Se-S-enriched diets displayed a higher survival rate compared with other experimental and control groups. Importantly, Se-Yeast supplementation decreased the growth of brain metastatic tumors as determined by the measurement of the intensity of the bioluminescent signal emitted by K1735-Luc cells upon reaction with luciferin. Different chemical forms of Se have distinct effects on the development of brain metastases. Organic Se in the form of Se-Yeast may be a valuable agent in suppression of brain metastatic disease. © 2013 Copyright Taylor and Francis Group, LLC. Source

Wrobel J.K.,University of Miami | Choi J.J.,University of Miami | Xiao R.,Nutrigenomics Research Center | Eum S.Y.,University of Miami | And 6 more authors.
Journal of Nutritional Biochemistry | Year: 2015

Selenium-containing compounds and selenized yeast have anticancer properties. In order to address possible mechanisms involved in these effects, selenoglycoproteins (SGPs) were extracted from selenium-enriched yeast at pH 4.0 and 6.5 (the fractions are called SGP40 and SGP65, respectively), followed by evaluation of their impact on the interactions of lung and breast tumor cells with human brain microvascular endothelial cells (HBMECs). Extracted SGPs, especially SGP40, significantly inhibited adhesion of tumor cells to HBMECs and their transendothelial migration. Because the active components of SGPs are unknown, small selenium-containing compounds [leucyl-valyl-selenomethionyl-arginine (LVSe-MR) and methylselenoadenosine (M-Se-A)], which are normally present in selenized yeast, were introduced as additional treatment groups. Treatment of HBMECs with SGP40, LVSe-MR and M-Se-A induced changes in gene signatures, which suggested a central involvement of nuclear factor (NF)-κB-dependent pathway. These observations were confirmed in the subsequent analysis of NF-κB DNA binding activity, quantitative measurements of the expression of selected genes and proteins, and tumor cell adhesion assay with a specific NF-κB inhibitor as the additional treatment factor. These findings indicate that specific organic selenium-containing compounds have the ability to inhibit tumor cell adhesion to brain endothelial cells via down-regulation of NF-κB. SGPs appear to be more effective than small selenium-containing compounds, suggesting the role of not only selenium but also the glycoprotein component in the observed protective impact. © 2015 Elsevier Inc. Source

Wrobel J.K.,University of Miami | Wolff G.,University of Miami | Xiao R.,Nutrigenomics Research Center | Power R.F.,Nutrigenomics Research Center | And 2 more authors.
Biological Trace Element Research | Year: 2015

Various dietary agents can modulate tumor invasiveness. The current study explored whether selenoglycoproteins (SeGPs) extracted from selenium-enriched yeast affect tumor cell homing and growth in the brain. Mice were fed diets enriched with specific SeGPs (SeGP40 or SeGP65, 1 mg/kg Se each), glycoproteins (GP40 or GP65, 0.2–0.3 mg/kg Se each) or a control diet (0.2–0.3 mg/kg Se) for 12 weeks. Then, murine Lewis lung carcinoma cells were infused into the brain circulation. Analyses were performed at early (48 h) and late stages (3 weeks) post tumor cell infusion. Imaging of tumor progression in the brain revealed that mice fed SeGP65-enriched diet displayed diminished metastatic tumor growth, fewer extravasating tumor cells and smaller metastatic lesions. While administration of tumor cells resulted in a significant upregulation of adhesion molecules in the early stage of tumor progression, overexpression of VCAM-1 (vascular call adhesion molecule-1) and ALCAM (activated leukocyte cell adhesion molecule) messenger RNA (mRNA) was diminished in SeGP65 supplemented mice. Additionally, mice fed SeGP65 showed decreased expression of acetylated NF-κB p65, 48 h post tumor cell infusion. The results indicate that tumor progression in the brain can be modulated by specific SeGPs. Selenium-containing compounds were more effective than their glycoprotein controls, implicating selenium as a potential negative regulator of metastatic process. © 2015 The Author(s) Source

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