Neocortical Pyramidal Cells Respond as Integrate-and-Fire Neurons to In Vivo-Like Input Currents

doi:10.1152/jn.00293.2003

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Neocortical Pyramidal Cells Respond as Integrate-and-Fire Neurons to In Vivo–Like Input Currents

Alexander Rauch^*, Giancarlo La Camera^*, Hans-Rudolf Lüscher, Walter Senn and Stefano Fusi

Institute of Physiology, University of Bern, 3012 Bern, Switzerland

Submitted 26 March 2003; accepted in final form 7 May 2003

In the intact brain neurons are constantly exposed to intensesynaptic activity. This heavy barrage of excitatory and inhibitoryinputs was recreated in vitro by injecting a noisy current,generated as an Ornstein–Uhlenbeck process, into the somaof rat neocortical pyramidal cells. The response to such invivo–like currents was studied systematically by analyzingthe time development of the instantaneous spike frequency, andwhen possible, the stationary mean spike frequency as a functionof both the mean and the variance of the input current. Allcells responded with an in vivo–like action potentialactivity with stationary statistics that could be sustainedthroughout long stimulation intervals (tens of seconds), providedthe frequencies were not too high. The temporal evolution ofthe response revealed the presence of mechanisms of fast andslow spike frequency adaptation, and a medium duration mechanismof facilitation. For strong input currents, the slow adaptationmechanism made the spike frequency response nonstationary. Theminimal frequencies that caused strong slow adaptation (a decreasein the spike rate by more than 1 Hz/s), were in the range 30–80Hz and depended on the pipette solution used. The stationaryresponse function has been fitted by two simple models of integrate-and-fireneurons endowed with a frequency-dependent modification of theinput current. This accounts for all the fast and slow mechanismsof adaptation and facilitation that determine the stationaryresponse, and proved necessary to fit the model to the experimentaldata. The coefficient of variability of the interspike intervalwas also in part captured by the model neurons, by tuning theparameters of the model to match the mean spike frequenciesonly. We conclude that the integrate-and-fire model with spike-frequency–dependentadaptation/facilitation is an adequate model reduction of corticalcells when the mean spike-frequency response to in vivo–likecurrents with stationary statistics is considered.

Address for reprint requests: S. Fusi, Institute of Physiology, University of Bern, Bühlplatz 5, 3012 Bern, Switzerland (E-mail: fusi{at}cns.unibe.ch).

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				F. Gabbiani and H. G. Krapp Spike-Frequency Adaptation and Intrinsic Properties of an Identified, Looming-Sensitive Neuron J Neurophysiol, December 1, 2006; 96(6): 2951 - 2962. [Abstract] [Full Text] [PDF]

				G. La Camera, A. Rauch, D. Thurbon, H.-R. Luscher, W. Senn, and S. Fusi Multiple Time Scales of Temporal Response in Pyramidal and Fast Spiking Cortical Neurons J Neurophysiol, December 1, 2006; 96(6): 3448 - 3464. [Abstract] [Full Text] [PDF]

				O. Barak and M. Tsodyks Recognition by Variance: Learning Rules for Spatiotemporal Patterns. Neural Comput., October 1, 2006; 18(10): 2343 - 2358. [Abstract] [Full Text] [PDF]

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