Abstract
Downstream regulatory element antagonistic modulator (DREAM/KChIP3), a neuronal EF-hand protein, modulates pain, potassium channel activity, and binds presenilin 1. Using affinity capture of neuronal proteins by immobilized DREAM/KChIP3 in the presence and absence of calcium (Ca(2+)) followed by mass spectroscopic identification of interacting proteins, we demonstrate that in the presence of Ca(2+), DREAM/KChIP3 interacts with the EF-hand protein, calmodulin (CaM). The interaction of DREAM/KChIP3 with CaM does not occur in the absence of Ca(2+). In the absence of Ca(2+), DREAM/KChIP3 binds the EF-hand protein, calcineurin subunit-B. Ca(2+)-bound DREAM/KChIP3 binds CaM with a dissociation constant of ∼3 μM as assessed by changes in DREAM/KChIP3 intrinsic protein fluorescence in the presence of CaM. Two-dimensional (1)H,(15)N heteronuclear single quantum coherence spectra reveal changes in chemical shifts and line broadening upon the addition of CaM to (15)N DREAM/KChIP3. The amino-terminal portion of DREAM/KChIP3 is required for its binding to CaM because a construct of DREAM/KChIP3 lacking the first 94 amino-terminal residues fails to bind CaM as assessed by fluorescence spectroscopy. The addition of Ca(2+)-bound DREAM/KChIP3 increases the activation of calcineurin (CN) by calcium CaM. A DREAM/KChIP3 mutant incapable of binding Ca(2+) also stimulates calmodulin-dependent CN activity. The shortened form of DREAM/KChIP3 lacking the NH(2)-terminal amino acids fails to activate CN in the presence of calcium CaM. Our data demonstrate the interaction of DREAM/KChIP3 with the important EF-hand protein, CaM, and show that the interaction alters CN activity.
Highlights
The calcium-binding protein DREAM/KChIP3 binds DNA and other proteins to regulate neuronal function
Analytical Ultracentrifugation and Size Exclusion Chromatography Reveal Dissociation of DREAM/KChIP3 Dimers upon Caϩ Binding—We hypothesized that conformational and oligomeric state changes occur upon the binding of Ca2ϩ to DREAM/KChIP3 that free up DREAM/KChIP3 monomers for interaction with proteins within neuronal cells
In the presence of 50 mM Ca2ϩ, DREAM/KChIP3 dissociates to exist in equilibrium between monomeric and dimeric states and has a bi-modal distribution with a second Ve/Vo of 2.15, corresponding to a molecular mass of ϳ25 kDa
Summary
The calcium-binding protein DREAM/KChIP3 binds DNA and other proteins to regulate neuronal function. Results: DREAM/KChIP3 binds the EF-hand protein, calmodulin, in the presence but not in the absence of calcium. Conclusion: DREAM/KChIP3 binds and regulates calmodulin activity. Significance: DREAM/KChIP3 heterodimerizes with the EF-hand protein, calmodulin, and regulates calmodulin activation of calcineurin. In the absence of Ca2؉, DREAM/KChIP3 binds the EF-hand protein, calcineurin subunit-B. Ca2؉-bound DREAM/KChIP3 binds CaM with a dissociation constant of ϳ3 M as assessed by changes in DREAM/KChIP3 intrinsic protein fluorescence in the presence of CaM. The addition of Ca2؉-bound DREAM/KChIP3 increases the activation of calcineurin (CN) by calcium CaM. A DREAM/KChIP3 mutant incapable of binding Ca2؉ stimulates calmodulin-dependent CN activity. The shortened form of DREAM/KChIP3 lacking the NH2-terminal amino acids fails to activate CN in the presence of calcium CaM. Our data demonstrate the interaction of DREAM/KChIP3 with the important EF-hand protein, CaM, and show that the interaction alters CN activity
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