The CaMKII inhibitor KN93-calmodulin interaction and implications for calmodulin tuning of NaV1.5 and RyR2 function

Christopher N. Johnson; R. Pattanayek; Franck Potet; Robyn T. Rebbeck; Daniel J. Blackwell; R. Nikolaienko; V. Sequeira; Remy Le Meur; Przemysław B. Radwański; Jonathan P. Davis; Aleksey V. Zima; Razvan L. Cornea; Steven M. Damo; Sandor Györke; Alfred L. George; Björn C. Knollmann

doi:10.1016/j.ceca.2019.102063

The CaMKII inhibitor KN93-calmodulin interaction and implications for calmodulin tuning of Na_V1.5 and RyR2 function

Christopher N. Johnson, R. Pattanayek, Franck Potet, Robyn T. Rebbeck, Daniel J. Blackwell, R. Nikolaienko, V. Sequeira, Remy Le Meur, Przemysław B. Radwański, Jonathan P. Davis, Aleksey V. Zima, Razvan L. Cornea, Steven M. Damo, Sandor Györke, Alfred L. George, Björn C. Knollmann

Chemical and Structural Biology (TMED)

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

Here we report the structure of the widely utilized calmodulin (CaM)-dependent protein kinase II (CaMKII) inhibitor KN93 bound to the Ca²⁺-sensing protein CaM. KN93 is widely believed to inhibit CaMKII by binding to the kinase. The CaM-KN93 interaction is significant as it can interfere with the interaction between CaM and it's physiological targets, thereby raising the possibility of ascribing modified protein function to CaMKII phosphorylation while concealing a CaM–protein interaction. NMR spectroscopy, stopped-flow kinetic measurements, and x-ray crystallography were used to characterize the structure and biophysical properties of the CaM-KN93 interaction. We then investigated the functional properties of the cardiac Na⁺ channel (Na_V1.5) and ryanodine receptor (RyR2). We find that KN93 disrupts a high affinity CaM-Na_V1.5 interaction and alters channel function independent of CaMKII. Moreover, KN93 increases RyR2 Ca²⁺ release in cardiomyocytes independent of CaMKII. Therefore, when interpreting KN93 data, targets other than CaMKII need to be considered.

Original language	English (US)
Article number	102063
Journal	Cell Calcium
Volume	82
DOIs	https://doi.org/10.1016/j.ceca.2019.102063
State	Published - Sep 2019

Bibliographical note

Publisher Copyright:
© 2019 Elsevier Ltd

Keywords

CaMKII inhibition
Calcium calmodulin dependent kinase type II (CaMKII)
Calcium signaling
KN92
KN93
autocamtide-2-inhibitor peptide

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Johnson, C. N., Pattanayek, R., Potet, F., Rebbeck, R. T., Blackwell, D. J., Nikolaienko, R., Sequeira, V., Le Meur, R., Radwański, P. B., Davis, J. P., Zima, A. V., Cornea, R. L., Damo, S. M., Györke, S., George, A. L., & Knollmann, B. C. (2019). The CaMKII inhibitor KN93-calmodulin interaction and implications for calmodulin tuning of Na_V1.5 and RyR2 function. Cell Calcium, 82, Article 102063. https://doi.org/10.1016/j.ceca.2019.102063

Johnson, CN, Pattanayek, R, Potet, F, Rebbeck, RT, Blackwell, DJ, Nikolaienko, R, Sequeira, V, Le Meur, R, Radwański, PB, Davis, JP, Zima, AV, Cornea, RL, Damo, SM, Györke, S, George, AL & Knollmann, BC 2019, 'The CaMKII inhibitor KN93-calmodulin interaction and implications for calmodulin tuning of Na_V1.5 and RyR2 function', Cell Calcium, vol. 82, 102063. https://doi.org/10.1016/j.ceca.2019.102063

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abstract = "Here we report the structure of the widely utilized calmodulin (CaM)-dependent protein kinase II (CaMKII) inhibitor KN93 bound to the Ca2+-sensing protein CaM. KN93 is widely believed to inhibit CaMKII by binding to the kinase. The CaM-KN93 interaction is significant as it can interfere with the interaction between CaM and it's physiological targets, thereby raising the possibility of ascribing modified protein function to CaMKII phosphorylation while concealing a CaM–protein interaction. NMR spectroscopy, stopped-flow kinetic measurements, and x-ray crystallography were used to characterize the structure and biophysical properties of the CaM-KN93 interaction. We then investigated the functional properties of the cardiac Na+ channel (NaV1.5) and ryanodine receptor (RyR2). We find that KN93 disrupts a high affinity CaM-NaV1.5 interaction and alters channel function independent of CaMKII. Moreover, KN93 increases RyR2 Ca2+ release in cardiomyocytes independent of CaMKII. Therefore, when interpreting KN93 data, targets other than CaMKII need to be considered.",

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AU - Pattanayek, R.

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AU - Rebbeck, Robyn T.

AU - Blackwell, Daniel J.

AU - Nikolaienko, R.

AU - Sequeira, V.

AU - Le Meur, Remy

AU - Radwański, Przemysław B.

AU - Davis, Jonathan P.

AU - Zima, Aleksey V.

AU - Cornea, Razvan L.

AU - Damo, Steven M.

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AU - George, Alfred L.

AU - Knollmann, Björn C.

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AB - Here we report the structure of the widely utilized calmodulin (CaM)-dependent protein kinase II (CaMKII) inhibitor KN93 bound to the Ca2+-sensing protein CaM. KN93 is widely believed to inhibit CaMKII by binding to the kinase. The CaM-KN93 interaction is significant as it can interfere with the interaction between CaM and it's physiological targets, thereby raising the possibility of ascribing modified protein function to CaMKII phosphorylation while concealing a CaM–protein interaction. NMR spectroscopy, stopped-flow kinetic measurements, and x-ray crystallography were used to characterize the structure and biophysical properties of the CaM-KN93 interaction. We then investigated the functional properties of the cardiac Na+ channel (NaV1.5) and ryanodine receptor (RyR2). We find that KN93 disrupts a high affinity CaM-NaV1.5 interaction and alters channel function independent of CaMKII. Moreover, KN93 increases RyR2 Ca2+ release in cardiomyocytes independent of CaMKII. Therefore, when interpreting KN93 data, targets other than CaMKII need to be considered.

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KW - Calcium calmodulin dependent kinase type II (CaMKII)

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