Ionomycin, a carboxylic acid ionophore, transports Pb(2+) with high selectivity.

Studies utilizing phospholipid vesicle loaded with chelator/indicators for polyvalent cations show that ionomycin transports divalent cations with the selectivity sequence Pb(2+) > Cd(2+) > Zn(2+) > Mn(2+) > Ca(2+) > Cu(2+) > Co(2+) > Ni(2+) > Sr(2+). The selectivity of this ionophore for Pb(2+) is in contrast to that observed for A23178 and 4-BrA23187, which transport Pb(2+) at efficiencies that are intermediate between those of other cations. When the selectivity difference of ionomycin for Pb(2+) versus Ca(2+) was calculated from relative rates of transport, with either cation present individually and all other conditions held constant, a value of approximately 450 was obtained. This rose to approximately 3200 when both cations were present and transported simultaneously. 1 microM Pb(2+) inhibited the transport of 1 mM Ca(2+) by approximately 50%, whereas the rate of Pb(2+) transport approached a maximum at a concentration of 10 microM Pb(2+) when 1 mM Ca(2+) was also present. Plots of log rate versus log ionomycin or log Pb(2+) concentration indicated that the transporting species is of 1:1 stoichiometry, ionophore to Pb(2+), but that complexes containing an additional Pb(2+) may occur. The species transporting Pb(2+) may include H.IPb.OH, wherein ionomycin is ionized once and the presence of OH(-) maintains charge neutrality. Ionomycin retained a high efficiency for Pb(2+) transport in A20 B lymphoma cells loaded with Indo-1. Both Pb(2+) entry and efflux were observed. Ionomycin should be considered primarily as an ionophore for Pb(2+), rather than Ca(2+), of possible value for the investigation and treatment of Pb(2+) intoxication.