Correction of Cold Damage to Mammalian Erythrocytes by Chlorpromazine to Influence the Dynamic Structure of a Membrane

Abstract—The resistance of mammalian erythrocytes (human, dog, horse, bull, and rabbit) to cold shock in the presence of chlorpromazine was studied; its effect on the state of erythrocyte membranes was investigated. The bond strength between membrane phospholipids of mammalian erythrocytes and the characteristics of the cold shock of these cells was determined with the correlation analysis. It has been established that erythrocytes of mammals whose membranes contain a high content of sphingomyelin and phosphatidylethanolamine and a low content of phosphatidylcholines are more resistant to cold shock. Chlorpromazine showed high efficiency in protecting mammalian erythrocytes against cold shock. The dynamic structure of membranes of human erythrocytes treated with the chlorpromazine was studied by EPR of spin-probes. The use of a set of spin-labeled probes: palmitic acid amide, 5-DOXYL stearic acid, and 16-DOXYL stearic acid, which allow studying the micro-viscosity parameters of the lipid bilayer of erythrocyte membranes in the transmembrane direction, made it possible to establish the locations of chlorpromazine action, namely, in the region of polar heads and hydrophobic tails of membrane phospholipids.