Kv7.2 (KCNQ2) is the principal molecular component of the slow voltage gated M-channel, which strongly influences neuronal excitability. Calmodulin (CaM) binds to two intracellular C-terminal segments of Kv7.2 channels, helices A and B, and it is required for exit from the endoplasmic reticulum. However, the molecular mechanisms by which CaM controls channel trafficking are currently unknown. Here we used two complementary approaches to explore the molecular events underlying the association between CaM and Kv7.2 and their regulation by Ca2+. First, we performed a fluorometric assay using dansylated calmodulin (D-CaM) to characterize the interaction of its individual lobes to the Kv7.2 CaM binding site (Q2AB). Second, we explored the association of Q2AB with CaM by NMR spectroscopy, using 15N-labeled CaM as a reporter. The combined data highlight the interdependency of the N- and C-lobes of CaM in the interaction with Q2AB, suggesting that when CaM binds Ca2+ the binding interface pivots between the N-lobe whose interactions are dominated by helix B and the C-lobe where the predominant interaction is with helix A. In addition, Ca2+ makes CaM binding to Q2AB more difficult and, reciprocally, the channel weakens the association of CaM with Ca2+. © 2014 Alaimo et al.

Pivoting between calmodulin lobes triggered by calcium in the Kv7.2/calmodulin complex / Alaimo, A.; Alberdi, A.; Gomis-Perez, C.; Fernandez-Orth, J.; Bernardo-Seisdedos, G.; Malo, C.; Millet, O.; Areso, P.; Villarroel, A.. - In: PLOS ONE. - ISSN 1932-6203. - 9:1(2014). [10.1371/journal.pone.0086711]

Pivoting between calmodulin lobes triggered by calcium in the Kv7.2/calmodulin complex

Alaimo A.;
2014-01-01

Abstract

Kv7.2 (KCNQ2) is the principal molecular component of the slow voltage gated M-channel, which strongly influences neuronal excitability. Calmodulin (CaM) binds to two intracellular C-terminal segments of Kv7.2 channels, helices A and B, and it is required for exit from the endoplasmic reticulum. However, the molecular mechanisms by which CaM controls channel trafficking are currently unknown. Here we used two complementary approaches to explore the molecular events underlying the association between CaM and Kv7.2 and their regulation by Ca2+. First, we performed a fluorometric assay using dansylated calmodulin (D-CaM) to characterize the interaction of its individual lobes to the Kv7.2 CaM binding site (Q2AB). Second, we explored the association of Q2AB with CaM by NMR spectroscopy, using 15N-labeled CaM as a reporter. The combined data highlight the interdependency of the N- and C-lobes of CaM in the interaction with Q2AB, suggesting that when CaM binds Ca2+ the binding interface pivots between the N-lobe whose interactions are dominated by helix B and the C-lobe where the predominant interaction is with helix A. In addition, Ca2+ makes CaM binding to Q2AB more difficult and, reciprocally, the channel weakens the association of CaM with Ca2+. © 2014 Alaimo et al.
2014
1
Alaimo, A.; Alberdi, A.; Gomis-Perez, C.; Fernandez-Orth, J.; Bernardo-Seisdedos, G.; Malo, C.; Millet, O.; Areso, P.; Villarroel, A.
Pivoting between calmodulin lobes triggered by calcium in the Kv7.2/calmodulin complex / Alaimo, A.; Alberdi, A.; Gomis-Perez, C.; Fernandez-Orth, J.; Bernardo-Seisdedos, G.; Malo, C.; Millet, O.; Areso, P.; Villarroel, A.. - In: PLOS ONE. - ISSN 1932-6203. - 9:1(2014). [10.1371/journal.pone.0086711]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/406226
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