Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

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Fruen, B.R. et al.

Direct detection of calmodulin tuning by ryanodine receptor channel targets using a Ca2+-sensitive acrylodan- labeled calmodulin.

Calmodulin ( CaM) activates the skeletal muscle ryanodine receptor (RyR1) at nanomolar Ca(2+) concentrations but inhibits it at micromolar Ca(2+) concentrations, indicating that binding of Ca(2+) to CaM may provide a molecular switch for modulating RyR1 channel activity. To directly examine the Ca(2+) sensitivity of RyR1-complexed CaM, we used an environment-sensitive acrylodan adduct of CaM. The resulting (ACR)CaM probe displayed high-affinity binding to, and Ca(2+)-dependent regulation of, RyR1 similar to that of unlabeled wild-type (WT) CaM. Upon addition of Ca(2+), (ACR)CaM exhibited a substantial (>50%) decrease in fluorescence (K(Ca) = 2.7 +/- 0.8 microM). A peptide derived from the RyR1 CaM binding domain (RyR1(3614)(-)(43)) caused an even more pronounced Ca(2+)-dependent fluorescence decrease, and a >or=10-fold leftward shift in its K(Ca) (0.2 +/- 0.1 microM). In the presence of intact RyR1 channels in SR vesicles, (ACR)CaM fluorescence spectra were distinct from those in the presence of RyR1(3614)(-)(43), although a Ca(2+)-dependent decrease in fluorescence was still observed. The K(Ca) for (ACR)CaM fluorescence in the presence of SR (0.8 +/- 0.4 microM) was greater than in the presence of RyR1(3614)(-)(43) but was consistent with functional determinations showing the conversion of (ACR)CaM from channel activator (apoCaM) to inhibitor (Ca(2+)CaM) at Ca(2+) concentrations between 0.3 and 1 microM. These results indicate that binding to RyR1 targets evokes significant changes in the CaM structure and Ca(2+) sensitivity (i.e., CaM tuning). However, changes resulting from binding of CaM to the full-length, tetrameric channels are clearly distinct from changes caused by the RyR1-derived peptide. We suggest that the Ca(2+) sensitivity of CaM when in complex with full-length channels may be tuned to respond to physiologically relevant changes in Ca(2+).[1]

References

Direct detection of calmodulin tuning by ryanodine receptor channel targets using a Ca2+-sensitive acrylodan-labeled calmodulin. Fruen, B.R., Balog, E.M., Schafer, J., Nitu, F.R., Thomas, D.D., Cornea, R.L. Biochemistry (2005) [Pubmed]

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