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Antioxidant activity of two edible isothiocyanates: Sulforaphane and erucin is due to their thermal decomposition to sulfenic acids and methylsulfinyl radicals

Jakub Cędrowski, Kajetan Dąbrowa, Paweł Przybylski, Agnieszka Krogul-Sobczak, Grzegorz Litwinienko

2021Food Chemistry36 citationsDOIOpen Access PDF

Abstract

Sulforaphane(SFN) and erucin(ERN) are isothiocyanates (ITCs) bearing, respectively, methylsulfinyl and methylsulfanyl groups. Their chemopreventive and anticancer activity is attributed to ability to modulate cellular redox status due to induction of Phase 2 cytoprotective enzymes (indirect antioxidant action) but many attempts to connect the bioactivity of ITCs with their radical trapping activity failed. Both ITCs are evolved from their glucosinolates during food processing of Cruciferous vegetables, therefore, we studied antioxidant behaviour of SFN/ERN at elevated temperature in two lipid systems. Neither ERN nor SFN inhibit the oxidation of bulk linolenic acid (below 100 °C) but both ITCs increase oxidative stability of soy lecithin (above 150 °C). On the basis of GC-MS analysis we verified our preliminary hypothesis (Antioxidants2020, 9, 1090) about participation of sulfenic acids and methylsulfinyl radicals as radical trapping agents responsible for the antioxidant effect of edible ITCs during thermal oxidation of lipids at elevated temperatures (above 140 °C).

Topics & Concepts

ChemistrySulforaphaneAntioxidantCruciferous vegetablesSulfenic acidRadicalLipid oxidationBiochemistryIsothiocyanateGlucosinolateGlutathioneEnzymeOrganic chemistryBrassicaCysteineBotanyCancerMedicineInternal medicineBiologyGenomics, phytochemicals, and oxidative stressFree Radicals and AntioxidantsPhytochemicals and Antioxidant Activities
Antioxidant activity of two edible isothiocyanates: Sulforaphane and erucin is due to their thermal decomposition to sulfenic acids and methylsulfinyl radicals | Litcius