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Selective Erythrocyte Potassium Efflux Following Pulse Treatment With Tellurite

Selective Erythrocyte Potassium Efflux Following Pulse Treatment With Tellurite

R K Klug, J Kurantsin-Mills

J Biochem Toxicol. Winter 1991;6(4):247-51.

PMID: 1774768

Abstract:

Human erythrocytes exposed to 0.1 mM tellurite (K2TeO3) in an isotonic buffered choline chloride medium for 15 min at 37 degrees C, washed, and incubated further in the absence of the chemical in the buffer, exhibited selective leakiness for potassium within minutes. The potassium efflux curve was sigmoidal, with an initially slow leakage followed by a sharp rise (first-order kinetics) and a plateau by 60 min. After 15 min, 30-50% of the total potassium concentration had leaked from the cells, although less than 1% lysis had occurred. The control cells incubated in buffer with no K2TeO3 exhibited no potassium leakage. The mean volume of the K2TeO3-treated erythrocytes increased and their median density decreased, indicating changes in the colloid osmotic state and physical characteristics of the cells. However, cells pretreated with K2TeO3 exhibited no significant change in glutathione (GSH) concentration and no membrane lipid peroxidation, unlike cells pretreated with t-butylhydroperoxide (Deuticke et al., Biochim. Bio phys. Acta, 899, 125-128, 1987). The enhanced potassium permeability of the K2TeO3-treated erythrocytes preceded the increase in cell volume, intracellular hydration, and a decrease in median density. We suggest that perturbation of the lipid-protein interaction in the membrane by the oxidant alters the potassium permeability and results in the selective leakage with eventual hemolysis.

Chemicals Related in the Paper:

Catalog Number	Product Name	Structure	CAS Number	Price
AP314041106	Potassium tellurate hydrate		314041-10-6	Price

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