A flow-dialysis method for obtaining relative measures of association constants in calmodulin-metal-ion systems

Abstract

A flow-dialysis apparatus suitable for the study of high-affinity metal-binding proteins has been utilized to study calmodulin-metal exchange as a measure of relative calmodulin-metal association constants. Calmodulin labelled with radioactive 153Gd was dialysed against buffer containing various competing metal ions. The rate of label exchange was monitored by a gamma-ray scintillation detector. Competing metals used were Ca2+ and Cd2+, and the lanthanides Gd3+, Eu3+, La3+ and Lu3+. All exchange processes were first-order, and two categories of metal were found: Ca2+ and Cd2+ in one, the lanthanides comprising the other. In addition calmodulin-metal complexes with radioactive 109Cd and 45Ca released the bound label without any competing metal being added to the buffer. The kinetics of this metal loss can be described by two consecutive first-order processes, and the fraction of label associated with each rate can be determined. Studies of phosphodiesterase activation by calmodulin show Cd2+ and calmodulin to cause 80% of the maximum activation found when Ca2+ and calmodulin are used.