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Translocation of calmodulin to the nucleus supports CREB phosphorylation in hippocampal neurons

Author

Listed:
  • Karl Deisseroth

    (Beckman Center for Molecular and Genetic Medicine)

  • E. Kevin Heist

    (Stanford University School of Medicine)

  • Richard W. Tsien

    (Beckman Center for Molecular and Genetic Medicine)

Abstract

Activation of the transcription factor CREB is thought to be important in the formation of long-term memory in several animal species1,2,3. The phosphorylation of a serine residue at position 133 of CREB is critical for activation of CREB4. This phosphorylation is rapid when driven by brief synaptic activity in hippocampal neurons5. It is initiated by a highly local, rise in calcium ion concentration5 near the cell membrane, but culminates in the activation of a specific calmodulin-dependent kinase known as CaMK IV (ref. 7), which is constitutively present in the neuronal nucleus7,8. It is unclear how the signal is conveyed from the synapse to the nucleus. We show here that brief bursts of activity cause a swift (∼1 min) translocation of calmodulin from the cytoplasm to the nucleus, and that this translocation is important for the rapid phosphorylation of CREB. Certain Ca2+ entry systems (L-type Ca2+ channels and NMDA receptors) are able to cause mobilization of calmodulin, whereas others (N- and P/Q-type Ca2+ channels) are not. This translocation of calmodulin provides a form of cellular communication that combines the specificity of local Ca2+ signalling with the ability to produce action at a distance.

Suggested Citation

  • Karl Deisseroth & E. Kevin Heist & Richard W. Tsien, 1998. "Translocation of calmodulin to the nucleus supports CREB phosphorylation in hippocampal neurons," Nature, Nature, vol. 392(6672), pages 198-202, March.
    • Handle: RePEc:nat:nature:v:392:y:1998:i:6672:d:10.1038_32448
    DOI: 10.1038/32448
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    Cited by:

    1. Travis J. Morgenstern & Neha Nirwan & Erick O. Hernández-Ochoa & Hugo Bibollet & Papiya Choudhury & Yianni D. Laloudakis & Manu Johny & Roger A. Bannister & Martin F. Schneider & Daniel L. Minor & Hen, 2022. "Selective posttranslational inhibition of CaVβ1-associated voltage-dependent calcium channels with a functionalized nanobody," Nature Communications, Nature, vol. 13(1), pages 1-19, December.

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