Previously detected β sp and γ1 sp dielectric relaxations on the spectrin-based membrane skeleton (MS) of human red blood cells (RBCs) have been shown sensitive to the attachment of MS to the lipid-protein membrane. Such relaxations were now detected on the MS of mammal (rat, horse, bovine, sheep and goat) and "unstrained" chicken RBCs. To become "unstrained" chicken RBCs were subjected consecutively to cold (4°C, >20 h) and either colchicine (15 mM) or vinblastine (30 μM) (4°C, 1 h) that led to irreversible disassembly of their marginal band and an additional portion of their cytoskeleton. With the exception of bovine RBCs, the critical frequency (f c) of either relaxation increased, although at different rates, with the decrease in the volume of RBC species. The strong increase in f c of γ1 sp relaxation from 2.5 MHz ("unstrained" chicken RBCs) to 13 MHz (goat RBCs) could indicate denser state of MS in smaller RBC species. The low values of f c of γ1 sp relaxation in "unstrained" chicken RBCs (2.5 MHz) and bovine RBCs (4.5 instead of 9 MHz) could be related to their extraordinary thermal stability at the temperature of spectrin denaturation.
The frequency-dependent contribution of spectrin, the main cytoskeletal protein of red blood cell (RBC) membrane, to the complex admittance and capacitance of suspended RBCs have revealed two dielectric relaxations, β sp (1.4 MHz) and γ1 sp (7 MHz). The strength of these relaxations was related to the ability of RBC membrane to deform. In this study the two relaxations were inhibited by N-ethylmaleimide (up to 5 mM), known to impair the RBC deformability, and the degree of inhibition, i.e., the number of accessible SH-groups on spectrin, depended on the deformation of RBC membrane. Dithiothreitol (up to 5 mM), which does not affect RBC deformability, did not affect the above dielectric relaxations in line with the absence of S-S groups on spectrin. Phenylhydrazine (up to 3 mM) and hydrogen hydroperoxide (up to 450 μM) are known to denature the haemoglobin of RBCs producing nanoparticles (globins) that bind to spectrin turning the RBC membrane rigid. At the same concentrations they were shown to inhibit progressively the two relaxations on spectrin. The results are in line with the involvement of some globin-sized segments of spectrin in the dielectric activity of spectrin and in the ability of RBC plasma membrane to deform.
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