Abstract
The antioxidant effects of dihydrolipoic acid (DHLA) and probucol were investigated in a human erythrocytic in-vitro model of diabetic oxidative stress, where xenobiotics were used to form methaemoglobin. 4-Aminophenol mediated haemoglobin oxidation in non-diabetic erythrocytes was not affected by the presence of either DHLA or probucol. However, with diabetic cells, there were significant increases ( P<0.01) in 4-aminophenol-mediated haemoglobin oxidation in the presence of DHLA. Methaemoglobin formed by nitrite in non-diabetic and diabetic cells was not altered by either DHLA or probucol except at one time point in diabetic cells. In non-diabetic as well as diabetic cells, methaemoglobin formed by MADDS-NHOH was significantly reduced at all three time points in the presence of DHLA ( P<0.0001) but unaffected by probucol. In the presence of DHLA only, methaemoglobin formed by the products of rat microsomal oxidation of both 4-aminopropiophenone and benzocaine was markedly reduced for both xenobiotics in diabetic and non-diabetic cells ( P<0.0001) compared with cells incubated in the absence of DHLA. There were no significant differences between total cellular thiol levels determined between diabetic and non-diabetic erythrocytes, nor did DHLA or probucol affect resting thiol levels. MADDS-NHOH caused a significant thiol depletion in diabetic cells, which was restored in the presence of DHLA. A further study is required to determine how DHLA attenuates the potent REDOX reactions that occur during hydroxylamine-mediated methaemoglobin formation.
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