Axo-Somatic and Apical Dendritic Kv7/M Channels Differentially Regulate the Intrinsic Excitability of Adult Rat CA1 Pyramidal Cells

doi:10.1152/jn.01333.2005

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Axo-Somatic and Apical Dendritic Kv7/M Channels Differentially Regulate the Intrinsic Excitability of Adult Rat CA1 Pyramidal Cells

Cuiyong Yue¹ and Yoel Yaari¹^*

¹ Physiology, Hebrew University School of Medicine, Jerusalem, Israel

^* To whom correspondence should be addressed. E-mail: yaari{at}md.huji.ac.il.

Kv7/KCNQ/M channel subunits are widely expressed in peripheraland central neurons, where they give rise to a muscarinic-sensitive,subthreshold and noninactivating K⁺ current (M current). Immunohistochemicaldata suggest that Kv7/M channels are expressed in both axons,somata and dendrites, but their distinctive roles in these compartmentsare not known. Here we used intracellular microelectrode recordingsto monitor the effects of selective Kv7/M channel modulatorsfocally applied to the axo-somatic region and to the apicaldendrites of adult rat CA1 pyramidal cells. We show that bothcompartments express functional Kv7/M channels that synergisticallycontrol intrinsic neuronal excitability, albeit in differentways. Axo-somatic Kv7/M channels activate during the spike afterdepolarization(ADP) and counteract the depolarizing drive furnished by conjointlyactivated persistent Na⁺ channels. Thereby they limit the sizeand duration of the spike ADP and prevent its escalation intoa somatic spike burst. Apical dendritic Kv7/M channels do notordinarily regulate the somatic spike ADP and spike output.In hyperexcitable conditions that promote Ca²⁺ electrogenesisin these dendrites, they elevate the threshold for initiatingCa²⁺ spikes and associated down-stream spike bursts. Thus, theconcerted activity of Kv7/M channels in both compartments servesto reduce the propensity to generate self-sustained burst responsesand fosters a regular, stimulus-graded spike output of the neuron.Given that the activity of Kv7/M channels is regulated by multipleneurotransmitters, they may provide a substrate for neuromodulationof neuronal input/output relations at both the axo-somatic andapical dendritic regions.

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				S. Chen and Y. Yaari Spike Ca2+ influx upmodulates the spike afterdepolarization and bursting via intracellular inhibition of KV7/M channels J. Physiol., March 1, 2008; 586(5): 1351 - 1363. [Abstract] [Full Text] [PDF]

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				A. E. Metz, N. Spruston, and M. Martina Dendritic D-type potassium currents inhibit the spike afterdepolarization in rat hippocampal CA1 pyramidal neurons J. Physiol., May 15, 2007; 581(1): 175 - 187. [Abstract] [Full Text] [PDF]

				Y. Yaari, C. Yue, and H. Su Recruitment of apical dendritic T-type Ca2+ channels by backpropagating spikes underlies de novo intrinsic bursting in hippocampal epileptogenesis J. Physiol., April 15, 2007; 580(2): 435 - 450. [Abstract] [Full Text] [PDF]

				H. Hu, K. Vervaeke, and J. F. Storm M-Channels (Kv7/KCNQ Channels) That Regulate Synaptic Integration, Excitability, and Spike Pattern of CA1 Pyramidal Cells Are Located in the Perisomatic Region J. Neurosci., February 21, 2007; 27(8): 1853 - 1867. [Abstract] [Full Text] [PDF]

				A. Peretz, A. Sheinin, C. Yue, N. Degani-Katzav, G. Gibor, R. Nachman, A. Gopin, E. Tam, D. Shabat, Y. Yaari, et al. Pre- and Postsynaptic Activation of M-Channels By a Novel Opener Dampens Neuronal Firing and Transmitter Release J Neurophysiol, January 1, 2007; 97(1): 283 - 295. [Abstract] [Full Text] [PDF]

				D. Golomb, C. Yue, and Y. Yaari Contribution of Persistent Na+ Current and M-Type K+ Current to Somatic Bursting in CA1 Pyramidal Cells: Combined Experimental and Modeling Study J Neurophysiol, October 1, 2006; 96(4): 1912 - 1926. [Abstract] [Full Text] [PDF]

				O. Zaika, L. S. Lara, N. Gamper, D. W. Hilgemann, D. B. Jaffe, and M. S. Shapiro Angiotensin II regulates neuronal excitability via phosphatidylinositol 4,5-bisphosphate-dependent modulation of Kv7 (M-type) K+ channels J. Physiol., August 15, 2006; 575(1): 49 - 67. [Abstract] [Full Text] [PDF]

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