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  • Title: Metabolic and morphologic effects of the antimicrobial agent nitrofurantoin on human erythrocytes in vitro.
    Author: Dershwitz M, Ts'ao CH, Novak RF.
    Journal: Biochem Pharmacol; 1985 Jun 01; 34(11):1963-70. PubMed ID: 4004912.
    Abstract:
    We have reported previously that the antimicrobial nitrofurantoin stimulates superoxide production and methemoglobin formation from HbO2 as an isolated hemeprotein and in hemolysates [M. Dershwitz and R. F. Novak, J. biol. Chem. 257, 75 (1982); M. Dershwitz and R. F. Novak, J. Pharmac. exp. Ther. 222, 430 (1982)]. The production of hydrogen peroxide and methemoglobin by nitrofurantoin has been determined in normal erythrocytes in vitro. Hydrogen peroxide production increased 5-fold during a 20-hr incubation in the presence of 840 microM nitrofurantoin, while methemoglobin content increased to over 20% of the total hemoglobin concentration of the cells. Consequent metabolic and morphologic alterations also occurred. Concomitant with nitrofurantoin-stimulated hydrogen peroxide production were time- and concentration-dependent decreases in cellular levels of GSH and ATP, as well as alterations in red cell morphology. Significant differences in GSH and ATP levels between control and nitrofurantoin-treated erythrocytes occurred after 12 hr and proceeded maximally from 18 to 21 hr. After a 21-hr incubation, 840 microM nitrofurantoin caused the cellular GSH and ATP levels to fall 65 and 75%, respectively, while controls exhibited only 29 and 43% decreases in ATP and GSH levels, respectively. Studies on the concentration dependence of such decreases demonstrated that the EC50 values for depletion of GSH and ATP were similar in blood obtained from an individual donor. The EC50 values varied from approximately 10 microM to 100 microM among the various donors whose blood was studied. Incubation of normal red cells with nitrofurantoin also resulted in an increased conversion of red cells to echinocytes as observed by scanning electron microscopy. These metabolic effects, coupled with increased oxidative stress via hydrogen peroxide generation, lend support to the mechanism for nitrofurantoin-induced hemolysis in erythrocytes compromised by certain enzyme deficiencies which result in low basal levels of GSH or diminished rates of GSH synthesis.
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