Abstract
Studies demonstrate that the potential health-beneficial effect of sulforaphane (SR), a compound formed in broccoli, is the result of a number of mechanisms including upregulation of phase two detoxification enzymes. Recent studies suggest that SR increases expression/activity of glyoxalase 1 (Glo1), an enzyme involved in the degradation of methylglyoxal, is major precursor of advanced glycation end products. Those compounds are associated with diabetes complications and other age-related diseases. In this study, the effect of SR on the expression/activity of Glo1 in peripheral blood mononuclear cells (PBMCs) from 8 healthy volunteers was investigated. PBMCs were isolated and incubated with SR (2.5 μM-concentration achievable by consuming a broccoli portion) for 24 h and 48 h. Glo1 activity/expression, reduced glutathione (GSH), and glutathione-S-transferase gene expression were measured. Glo1 activity was not affected while after 48 h a slight but significant increase of its gene expression (1.03-fold) was observed. GSTP1 expression slightly increased after 24 h incubation (1.08-fold) while the expressions of isoform GSTT2 and GSTM2 were below the limit of detection. GSH sharply decreased, suggesting the formation of GSH-SR adducts that may have an impact SR availability. Those results suggest that a regular exposure to SR by broccoli consumption or SR supplements may enhance Glo1.
Highlights
Epidemiological studies have shown correlations between dietary intake of Brassica vegetable and lower occurrence of cancer and various chronic diseases [1,2,3]
SR can interact with cysteine residues of Keap1, causing dissociation of Keap1 from NF-E2-related factor 2 (Nrf2), resulting in the translocation of Nrf2 to the nucleus
Cell viability of peripheral blood mononuclear cells (PBMCs) incubated in the absence and in the presence of 2.5 μM SR for 24 h and 48 h was evaluated by using the WST-1 Cell Proliferation Assay (Roche)
Summary
Epidemiological studies have shown correlations between dietary intake of Brassica vegetable and lower occurrence of cancer and various chronic diseases [1,2,3]. Part of such health-beneficial effects has been ascribed to breakdown products of glucosinolates, secondary plant metabolites present in Brassica vegetables, which represent a defense tool against herbivores [4]. The potential, beneficial effect of SR is the results of several molecular mechanisms [1,2,3]. SR can interact with cysteine residues of Keap, causing dissociation of Keap from Nrf, resulting in the translocation of Nrf to the nucleus
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