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The Journal of Neurophysiology Vol. 83 No. 2 February 2000, pp. 1108-1114
Copyright ©2000 by the American Physiological Society
RAPID COMMUNICATION
Departmento de Investigación, Hospital Ramón y Cajal, 28034 Madrid, Spain
López-Aguado, L.,
J. M. Ibarz, and
O. Herreras.
Modulation of Dendritic Action Currents Decreases the Reliability
of Population Spikes. J. Neurophysiol. 83: 1108-1114, 2000. During synchronous action potential (AP)
firing of CA1 pyramidal cells, a population spike (PS) is recorded in
the extracellular space, the amplitude of which is considered a
reliable quantitative index of the population output. Because the AP
can be actively conducted and differentially modulated along the soma
and dendrites, the extracellular part of the dendritic inward currents
variably contributes to the somatic PS by spreading in the volume
conductor to adjacent strata. This contribution has been studied by
current-source density analysis and intracellular recordings in vivo
during repetitive backpropagation that induces their selective fading.
Both the PS and the ensemble action currents declined during
high-frequency activation, although at different rates and timings. The
decline was much stronger in dendrites than in the somatic region. At specific frequencies and for a short number of impulses the decrease of
the somatic PS was neither due to fewer firing cells nor to decreased
somatic action currents but to the blockade of dendritic action
currents. The dendritic contribution to the peak of the somatic
antidromic PS was estimated at ~30-40% and up to 100% at later
times in the positive-going limb. The blockade of AP dendritic invasion
was in part due to a decreased transfer of current from the soma that
underwent a cumulative increase of conductance and slow depolarization
during the train that eventually extended into the axon. The
possibility of differential modulation of soma and dendritic action
currents during APs should be checked when using the PS as a
quantitative parameter.
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  S. Canals, L. Lopez-Aguado, and O. Herreras Synaptically Recruited Apical Currents Are Required to Initiate Axonal and Apical Spikes in Hippocampal Pyramidal Cells: Modulation by Inhibition J Neurophysiol, February 1, 2005; 93(2): 909 - 918. [Abstract] [Full Text] [PDF]
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L. Lopez-Aguado, J. M. Ibarz, P. Varona, and O. Herreras Structural Inhomogeneities Differentially Modulate Action Currents and Population Spikes Initiated in the Axon or Dendrites J Neurophysiol, November 1, 2002; 88(5): 2809 - 2820. [Abstract] [Full Text] [PDF]
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F. Kloosterman, P. Peloquin, and L. S. Leung Apical and Basal Orthodromic Population Spikes in Hippocampal CA1 In Vivo Show Different Origins and Patterns of Propagation J Neurophysiol, November 1, 2001; 86(5): 2435 - 2444. [Abstract] [Full Text] [PDF]
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P. Varona, J. M. Ibarz, L. Lopez-Aguado, and O. Herreras Macroscopic and Subcellular Factors Shaping Population Spikes J Neurophysiol, April 1, 2000; 83(4): 2192 - 2208. [Abstract] [Full Text] [PDF]
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