Interactions between domains of apo calmodulin alter calcium binding and stability

Calmodulin (CaM) is an essential protein that exerts exquisite spatial and temporal control over diverse eukaryotic processes. Although the two half-molecule domains of CaM each have two EF-hands and bind two calcium ions cooperatively, they have distinct roles in activation of some targets. Interdomain interactions may mediate coordination of their actions. Proteolytic footprinting titrations of CaM [Pedigo and Shea (1995) Biochemistry 34, 1179-1196; Shea, Verhoeven, and Pedigo (1996) Biochemistry 35, 2943-2957] showed that calcium binding to the high-affinity sites (III and IV in the C-domain) alters the conformation of helix B in the N-domain despite sites I and II being vacant, This may arise from calcium-induced disruption of interactions between the apo domains, In this study, comparing the cloned domains (residues 1-75, 76-148) to whole CaM, the proteolytic susceptibility of helix B in the apo isolated N-domain was higher than in apo CaM, The isolated N-domain was monotonically protected by calcium binding and had a higher calcium affinity than when part of whole CaM. The change in affinity was small (1-1.5 kcal/mol) but acted to separate the domain saturation curves of whole CaM. Unfolding enthalpies and melting temperatures of the apo isolated domains did not correspond to the two transitions resolved for apo CaM. In summary, the interactions between domains of apo CaM protected the N-domain from proteolysis and raised its T-m by 10 degrees C, demonstrating that CaM is not the sum of its parts.