Molecular Brain (Aug 2017)

A T-type channel-calmodulin complex triggers αCaMKII activation

  • Hadhimulya Asmara,
  • Ileana Micu,
  • Arsalan P. Rizwan,
  • Giriraj Sahu,
  • Brett A. Simms,
  • Fang-Xiong Zhang,
  • Jordan D. T. Engbers,
  • Peter K. Stys,
  • Gerald W. Zamponi,
  • Ray W. Turner

DOI
https://doi.org/10.1186/s13041-017-0317-8
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 15

Abstract

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Abstract Calmodulin (CaM) is an important signaling molecule that regulates a vast array of cellular functions by activating second messengers involved in cell function and plasticity. Low voltage-activated calcium channels of the Cav3 family have the important role of mediating low threshold calcium influx, but were not believed to interact with CaM. We find a constitutive association between CaM and the Cav3.1 channel at rest that is lost through an activity-dependent and Cav3.1 calcium-dependent CaM dissociation. Moreover, Cav3 calcium influx is sufficient to activate αCaMKII in the cytoplasm in a manner that depends on an intact Cav3.1 C-terminus needed to support the CaM interaction. Our findings thus establish that T-type channel calcium influx invokes a novel dynamic interaction between CaM and Cav3.1 channels to trigger a signaling cascade that leads to αCaMKII activation.

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