Activation of SOD-3 is involved in the antioxidant effect of a new class of β-aryl-chalcogenium azide compounds in Caenorhabditis elegans

Abstract Organic selenium, tellurium and sulfur compounds have been studied due to their pharmacological properties. For instance, the β-aryl-chalcogenium azide compounds have demonstrated antitumoral action in vitro. However, yet no pharmacological actions of this class of compounds were determined...

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Published inAnais da Academia Brasileira de Ciências Vol. 92; no. suppl 2; p. e20181147
Main Authors MOTTA, HODARA S., ROOS, DANIEL, TABARELLI, GREICE, RODRIGUES, OSCAR E.D., ÁVILA, DAIANA, QUINES, CAROLINE B.
Format Journal Article
LanguageEnglish
Portuguese
Published Academia Brasileira de Ciências 01.01.2020
Subjects
C. elegans
MULTIDISCIPLINARY SCIENCES
organochalcogenides
oxidative stress
selenium
superoxide dismutase
C. elegans
organochalcogenides
selenium
superoxide dismutase
oxidative stress
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Summary:Abstract Organic selenium, tellurium and sulfur compounds have been studied due to their pharmacological properties. For instance, the β-aryl-chalcogenium azide compounds have demonstrated antitumoral action in vitro. However, yet no pharmacological actions of this class of compounds were determined in vivo. Caenorhabditis elegans is a nematode that presents innumerable advantages in relation to mammalian models, such as having a small and transparent body, which allows the visualization of its internal anatomy, besides short life and low cost. Based on that, the aim of this work was to investigate the pharmacological and toxicological properties of β-aryl-chalcogenium azide compounds in C. elegans. As well, to evaluate the capacity of organochalcogenium compounds to repair oxidative damage induced by hydrogen peroxide and the possible mechanism of action of these compounds using CF1553 transgenic strain with superoxide dismutase (SOD-3) tagged with GFP. Our results showed that β-aryl-chalcogenium azide have low toxicity in wild-type worms and the pre-treatment protected against the damage induced by hydrogen peroxide at higher tested concentration. Associated with this, we observed that this protection is due in part to the increased expression of the antioxidant enzyme SOD-3. In conclusion, β-aryl-chalcogenium azide compounds caused low toxicity and induced stress-resistance by modulating SOD-3 expression in C. elegans.
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ISSN:0001-3765
1678-2690
1678-2690
DOI:10.1590/0001-3765202020181147