Abstract
Hemin binding to red cell membranes, its effect on red cell hemolysis, and its interaction with desferrioxamine (DFO) in these processes were investigated. DFO interacted with hemin via the iron moiety. Blockage of the binding groups in DFO prevented interaction of DFO with hemin, implying the importance of the hydroxamic acid groups in DFO-hemin interactions. Since hemolysis is a result of hemin association with the membrane components, its binding in the presence and absence of DFO was studied. DFO strongly inhibited hemin-induced lysis in a concentration-dependent manner. With 50 μM hemin, 1 mM DFO completely inhibited lysis. Preincubation of ghost membranes with DFO (1 mM) inhibited binding of hemin (50 μM) to membranes by 42%. After ghost membranes were preincubated with hemin (50 μM), the addition of DFO (1 mM) removed 20% of the membrane-bound hemin. It is suggested that DFO may have an important role in alleviating the hemin-induced deleterious effects on the red cell membrane, especially in hemolytic anemias associated with unstable, autoxidized hemoglobins.
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