Hemin-induced membrane sulfhydryl oxidation: possible involvement of thiyl radicals.

Authors :: Chiu DT
Huang TY
Hung IJ
Wei JS
Liu TZ
Stern A
Source :: Free radical research [Free Radic Res] 1997 Jul; Vol. 27 (1), pp. 55-62.
Publication Year :: 1997
Abstract: Sublytic levels (microM) of hemin destabilized RBC membrane as indicated by ghost fragmentation pattern using a laser viscodiffractometer. Furthermore, electron microscopic study shows that 5 microM of hemin induced echinocytic transformation whereas higher hemin concentration (40 microM) induced spherocytic transformation. In addition, hemin oxidized sulfhydryl groups in a dose dependent fashion and Electron Spin Resonance study suggests that such oxidation may involve a thiyl radical. Moreover, sulfhydryl compounds enhanced hemin-induced lipid peroxidation. Desferroxamine could prevent hemin-induced sulfhydryl oxidation as well as hemin-induced decrease in membrane stability. In contrast, vitamin E could effectively prevent hemin-induced lipid peroxidation but could not prevent hemin-mediated membrane destabilization.

Subjects :: Deferoxamine pharmacology
Electron Spin Resonance Spectroscopy
Erythrocyte Membrane drug effects
Erythrocytes drug effects
Erythrocytes metabolism
Erythrocytes physiology
Free Radicals metabolism
Glutathione metabolism
Glutathione pharmacology
Humans
Lipid Peroxidation drug effects
Mercaptoethanol pharmacology
Oxidation-Reduction
Thiobarbituric Acid Reactive Substances metabolism
Vitamin E pharmacology
Erythrocyte Membrane metabolism
Hemin pharmacology
Sulfhydryl Compounds metabolism

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