Cadmium as a tool for studying calcium-dependent cation permeability of the human red blood cell membrane.

Three Ca(2+)-dependent procedures known to increase cation permeability of red blood cell membranes were tested with Cd2+ ions which equal Ca2+ ions both in their charge and the crystal radius, 1. Increase of non-selective permeability for monovalent cations by incubating the red cells in a Ca(2+)-free sucrose medium. Addition of Cd2+ to the suspension of leaky cells failed to restore the initial impermeability of the red cell membrane while a repairing effect of Ca2+ was evident both in the presence and absence of Cd2+. Thus, in low electrolyte medium, Cd2+ could neither mimic Ca2+, nor prevent the latter from interacting with membrane structures which control cation permeability. 2. Increase of the K(+)-selective permeability by propranolol plus Ca2+. Cd2+ added to a Ca(2+)-free Ringer type medium containing propranolol enhanced K+ permeability similar to that obtained with Ca2+. No changes of membrane permeability could be detected in the presence of 0.5 mmol/l Cd2+ in absence of propranolol. The Cd(2+)-stimulated K+ channels were different from those induced by Ca2+. They proved to be insensitive to quinine, exhibited a low K+/Na+ selectivity, and showed no tendency to self-inactivation. 3. Stimulation of K+ permeability by electron donors plus Ca2+. Substitution of Ca2+ by Cd2+ yielded results similar to those obtained with propranolol. The ability of Cd2+ to overtake the role of Ca2+ appears to depend on the system studied. It supplies information allowing to distinguish between the diverse Ca(2+)-dependent systems in cell membranes.