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Abstract
Purpose: To investigate the effects of the imposed low dose rate ionizing field on membrane stability of human erythrocytes under modulation of transmembrane exchange of Ca2+.
Materials and methods: Osmotic resistance of human erythrocytes was determined by a measure of haemoglobin released from erythrocytes when placed in a medium containing serial dilutions of Krebs isotonic buffer. The zeta potential as indicator of surface membrane potential was calculated from value of the cellular electrophoretic mobility. The irradiation of erythrocyte suspensions carried out by applying suitable aliquots of 90Sr in incubation media.
Results: Irradiation of human erythrocytes by 90Sr (1.5–15.0 μGy·h−1) induced a reversible increase of hyposmotic hemolysis and negative charge value on the outer membrane surface as well as changed responses these parameters to modification of Ca2+ fluxes with calcimycin and nitrendipine.
Conclusions: Findings indicate that the low dose rate radionuclides (90Sr) field modifies both Ca2+-mediated, and Ca2+-independent cellular signalling regulating mechanical stability of erythrocyte membrane. A direction of that modification presumably depends on the initial structure of membranes, and it is determined by the quality and quantitative parameters of changes in membrane structure caused by concrete operable factors.
Notes
Declaration of interest
The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.
The article was funded by National Academy of Sciences of Ukraine.
Notes
1. In these works decreasing absolute value of zeta potential of human RBC under the low dose field was determined. It is a result of technical error related to measuring the difference between constant electroendoosmotic motion of water and proper zeta potential of cells. The findings were faithful, but must be presented with opposite sign. Actually zeta potential is increased as it was confirmed by fluorescent probe data (CitationZhirnov et al. 2010), and by data presented here.