DNA damage and oxidative stress response to selenium yeast in the non-smoking individuals: a short-term supplementation trial with respect to GPX1 and SEPP1 polymorphism

Purpose Selenium, both essential and toxic element, is considered to protect against cancer, though human supplementation trials have generated many inconsistent data. Genetic background may partially explain a great variability of the studies related to selenium and human health. The aim of this st...

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Published in:European journal of nutrition 2016-12, Vol.55 (8), p.2469-2484
Main Authors: Jablonska, E., Raimondi, S., Gromadzinska, J., Reszka, E., Wieczorek, E., Krol, M. B., Smok-Pieniazek, A., Nocun, M., Stepnik, M., Socha, K., Borawska, M. H., Wasowicz, W.
Format: Article
Language:English
Subjects:
Adolescent
Adult
Alleles
antioxidants
blood
Body Mass Index
Chemistry
Chemistry and Materials Science
dietary mineral supplements
Dietary Supplements
DNA damage
DNA Damage - drug effects
Female
gene expression
genetic background
Genotype
Genotyping Techniques
Glutathione Peroxidase - blood
Glutathione Peroxidase - genetics
homozygosity
human health
Humans
Lipid Peroxidation - drug effects
Male
messenger RNA
Middle Aged
neoplasms
Nutrition
Original Contribution
oxidative stress
Oxidative Stress - drug effects
Polymorphism, Single Nucleotide
RNA, Messenger - genetics
RNA, Messenger - metabolism
Saccharomyces cerevisiae
selenium
Selenium - administration & dosage
Selenium - blood
Selenium - toxicity
selenoproteins
Selenoproteins - blood
Selenoproteins - genetics
stress response
yeasts
Young Adult
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Summary:Purpose Selenium, both essential and toxic element, is considered to protect against cancer, though human supplementation trials have generated many inconsistent data. Genetic background may partially explain a great variability of the studies related to selenium and human health. The aim of this study was to assess whether functional polymorphisms within two selenoprotein-encoding genes modify the response to selenium at the level of oxidative stress, DNA damage, and mRNA expression, especially in the individuals with a relatively low selenium status. Methods The trial involved 95 non-smoking individuals, stratified according to GPX1 rs1050450 and SEPP1 rs3877899 genotypes, and supplemented with selenium yeast (200 µg) for 6 weeks. Blood was collected at four time points, including 4 weeks of washout. Results After genotype stratification, the effect of GPX1 rs1050450 on lower GPx1 activity responsiveness was confirmed; however, in terms of DNA damage, we failed to indicate that individuals homozygous for variant allele may especially benefit from the increased selenium intake. Surprisingly, considering gene and time interaction, GPX1 polymorphism was observed to modify the level of DNA strand breaks during washout, showing a significant increase in GPX1 wild-type homozygotes. Regardless of the genotype, selenium supplementation was associated with a selectively suppressed selenoprotein mRNA expression and inconsistent changes in oxidative stress response, indicating for overlapped, antioxidant, and prooxidant effects. Intriguingly, DNA damage was not influenced by supplementation, but it was significantly increased during washout. Conclusions These results point to an unclear relationship between selenium, genotype, and DNA damage.
ISSN:1436-6207
1435-1293
1436-6215
DOI:10.1007/s00394-015-1118-4