Abstract
Selenium (Se) at supranutritional levels can enhance the activity of glutathione S-transferase (GST), whose gene is a target of nuclear factor erythroid-2 related factor 2 (Nrf2). Recent studies indicated that the thioredoxin reductase 1 (TrxR1) gene could also be targeted by Nrf2. Thus, high-dose Se may stimulate TrxR1 provided it enhances GST activity. Indeed, one study found that Se at supranutritional levels transiently increased hepatic TrxR1 activity. However, another study reported that supranutritional Se had no such effect on hepatic TrxR1 activity. In view of this discrepancy, the present research investigated whether high-dose Se has any impact on hepatic TrxR1. Moreover, we investigated whether Se preferentially activates GST over TrxR1. We observed that when sodium selenite (SS) caused liver injury, both hepatic TrxR1 activity and hepatic GST activity increased. Further experiments indicated that SS increased hepatic GST activity at either toxic or high but non-toxic dose levels; however, increase in hepatic TrxR1 activity occurred only at toxic levels, suggesting that enhanced TrxR1 activity correlates with liver injury. To corroborate this, we showed that hepatotoxic agents, thioacetamide or carbon tetrachloride, caused marked increases in hepatic TrxR1 activity. In conclusion, high-dose SS indeed can enhance hepatic TrxR1 activity, but only on the condition that it causes liver injury. High-dose SS affects hepatic GST more readily than hepatic TrxR1. Thus, the cancer-preventive mechanism of Se at non-toxic supranutritional levels relies more on its modulation of GST rather than TrxR1, at least in liver tissue.
Highlights
Mammalian thioredoxin reductase (TrxR), a ubiquitous enzyme present in all living cells, is an Nicotinamide-adenine dinucleotide phosphate (NADPH)-dependent homodimer oxidoreductase with one FAD and one selenocysteine per subunit (Nordberg and Arnér, 2001)
Further experiments indicated that sodium selenite (SS) increased hepatic glutathione S-transferase (GST) activity at either toxic or high but non-toxic dose levels; increase in hepatic thioredoxin reductase 1 (TrxR1) activity occurred only at toxic levels, suggesting that enhanced TrxR1 activity correlates with liver injury
Since expression of both GST and TrxR1 is regulated by nuclear factor erythroid-2 related factor 2 (Nrf2), it is plausible that Se may stimulate TrxR1 provided it increases GST activity
Summary
Mammalian thioredoxin reductase (TrxR), a ubiquitous enzyme present in all living cells, is an NADPH-dependent homodimer oxidoreductase with one FAD and one selenocysteine per subunit (Nordberg and Arnér, 2001). There is a large body of evidence indicating that Se at supranutritional level can increase detoxifying activity of GST (Ip and Lisk, 1997, Sohn et al, 1999, Wang et al, 2007, Xiao and Parkin, 2006), GST induction by Se is a potential mechanism of its cancer-preventive action. Since expression of both GST and TrxR1 is regulated by Nrf, it is plausible that Se may stimulate TrxR1 provided it increases GST activity. The second purpose was to investigate whether Se preferentially activates GST over TrxR1
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