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Modulation of A-type potassium channels by a family of calcium sensors

Author

Listed:
  • W. Frank An

    (Millennium Pharmaceuticals)

  • Mark R. Bowlby

    (Wyeth-Ayerst Research)

  • Maria Betty

    (Wyeth-Ayerst Research)

  • Jie Cao

    (Millennium Pharmaceuticals)

  • Huai-Ping Ling

    (Wyeth-Ayerst Research)

  • Grace Mendoza

    (Wyeth-Ayerst Research)

  • Joseph W. Hinson

    (Wyeth-Ayerst Research)

  • Karen I. Mattsson

    (Wyeth-Ayerst Research)

  • Brian W. Strassle

    (Wyeth-Ayerst Research)

  • James S. Trimmer

    (Department of Biochemistry and Cell Biology)

  • Kenneth J. Rhodes

    (Wyeth-Ayerst Research)

Abstract

In the brain and heart, rapidly inactivating (A-type) voltage-gated potassium (Kv) currents operate at subthreshold membrane potentials to control the excitability of neurons and cardiac myocytes1,2. Although pore-forming α-subunits of the Kv4, or Shal-related, channel family form A-type currents in heterologous cells3, these differ significantly from native A-type currents. Here we describe three Kv channel-interacting proteins (KChIPs) that bind to the cytoplasmic amino termini of Kv4 α-subunits. We find that expression of KChIP and Kv4 together reconstitutes several features of native A-type currents by modulating the density, inactivation kinetics and rate of recovery from inactivation of Kv4 channels in heterologous cells. All three KChIPs co-localize and co-immunoprecipitate with brain Kv4 α-subunits, and are thus integral components of native Kv4 channel complexes. The KChIPs have four EF-hand-like domains and bind calcium ions. As the activity and density of neuronal A-type currents tightly control responses to excitatory synaptic inputs, these KChIPs may regulate A-type currents, and hence neuronal excitability, in response to changes in intracellular calcium.

Suggested Citation

  • W. Frank An & Mark R. Bowlby & Maria Betty & Jie Cao & Huai-Ping Ling & Grace Mendoza & Joseph W. Hinson & Karen I. Mattsson & Brian W. Strassle & James S. Trimmer & Kenneth J. Rhodes, 2000. "Modulation of A-type potassium channels by a family of calcium sensors," Nature, Nature, vol. 403(6769), pages 553-556, February.
    • Handle: RePEc:nat:nature:v:403:y:2000:i:6769:d:10.1038_35000592
    DOI: 10.1038/35000592
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    Cited by:

    1. Riley T. Bottom & Yijun Xu & Caroline Siebald & Jinsei Jung & Ulrich Müller, 2024. "Defects in hair cells disrupt the development of auditory peripheral circuitry," Nature Communications, Nature, vol. 15(1), pages 1-20, December.

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