eLife (Jan 2016)

IK1 channels do not contribute to the slow afterhyperpolarization in pyramidal neurons

  • Kang Wang,
  • Pedro Mateos-Aparicio,
  • Christoph Hönigsperger,
  • Vijeta Raghuram,
  • Wendy W Wu,
  • Margreet C Ridder,
  • Pankaj Sah,
  • Jim Maylie,
  • Johan F Storm,
  • John P Adelman

DOI
https://doi.org/10.7554/eLife.11206
Journal volume & issue
Vol. 5

Abstract

Read online

In pyramidal neurons such as hippocampal area CA1 and basolateral amygdala, a slow afterhyperpolarization (sAHP) follows a burst of action potentials, which is a powerful regulator of neuronal excitability. The sAHP amplitude increases with aging and may underlie age related memory decline. The sAHP is due to a Ca2+-dependent, voltage-independent K+ conductance, the molecular identity of which has remained elusive until a recent report suggested the Ca2+-activated K+ channel, IK1 (KCNN4) as the sAHP channel in CA1 pyramidal neurons. The signature pharmacology of IK1, blockade by TRAM-34, was reported for the sAHP and underlying current. We have examined the sAHP and find no evidence that TRAM-34 affects either the current underling the sAHP or excitability of CA1 or basolateral amygdala pyramidal neurons. In addition, CA1 pyramidal neurons from IK1 null mice exhibit a characteristic sAHP current. Our results indicate that IK1 channels do not mediate the sAHP in pyramidal neurons.

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