Band-Pass Response Properties of Rat SI Neurons

doi:10.1152/jn.01158.2002

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Band-Pass Response Properties of Rat SI Neurons

Catherine E. Garabedian¹, Stephanie R. Jones², Michael M. Merzenich¹, Anders Dale² and Christopher I. Moore³

¹ University of California, Keck Center for Integrative Neuroscience, San Francisco, California 94143; ² Massachusetts General Hospital Nuclear Magnetic Resonance Imaging Center, Charlestown, Massachusetts 02141; ³ Massachusetts Institute of Technology, McGovern Institute for Brain Research and Department of Brain and Cognitive Sciences, Cambridge, Massachusetts 02139

Submitted 23 December 2002; accepted in final form 12 May 2003

Rats typically employ 4- to 12-Hz "whisking" movements of theirvibrissae during tactile exploration. The intentional samplingof signals in this frequency range suggests that neural processingof tactile information may be differentially engaged in thisbandwidth. We examined action potential responses in rat primarysomatosensory cortex (SI) to a range of frequencies of vibrissamotion. Single vibrissae were mechanically deflected with 5-spulse trains at rates $<=$ 40 Hz. As previously reported, vibrissadeflection evoked robust neural responses that consistentlyadapted to stimulus rates $>=$ 3 Hz. In contrast withthis low-pass feature of the response, several other characteristicsof the response revealed bandpass response properties. Whileaverage evoked response amplitudes measured 0–35 ms afterstimulus onset typically decreased with increasing frequency,the later components of the response (>15 ms post stimulus)were augmented at frequencies between 3 and 10 Hz. Further,during the steady state, both rate and temporal measures ofneural activity, measured as total spike rate or vector strength(a measure of temporal fidelity of spike timing across cycles),showed peak signal values at 5–10 Hz. A minimal biophysicalnetwork model of SI layer IV, consisting of an excitatory andinhibitory neuron and thalamocortical input, captured the spikerate and vector strength band-pass characteristics. Furtheranalyses in which specific elements were selectively removedfrom the model suggest that slow inhibitory influences giverise to the band-pass peak in temporal precision, while thalamocorticaladaptation can account for the band-pass peak in spike rate.The presence of these band-pass characteristics may be a generalproperty of thalamocortical circuits that lead rodents to targetthis frequency range with their whisking behavior.

Address for reprint requests: C. E. Garabedian, University of California San Francisco, Keck Center for Integrative Neuroscience, 513 Parnassus Ave. HSE-808, San Francisco, CA 94142 (E-mail: cagarabe{at}phy.ucsf.edu).

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				V. Ego-Stengel, T. Mello E Souza, V. Jacob, and D. E. Shulz Spatiotemporal Characteristics of Neuronal Sensory Integration in the Barrel Cortex of the Rat J Neurophysiol, March 1, 2005; 93(3): 1450 - 1467. [Abstract] [Full Text] [PDF]

				V. Khatri, J. A. Hartings, and D. J. Simons Adaptation in Thalamic Barreloid and Cortical Barrel Neurons to Periodic Whisker Deflections Varying in Frequency and Velocity J Neurophysiol, December 1, 2004; 92(6): 3244 - 3254. [Abstract] [Full Text] [PDF]

				C. I. Moore Frequency-Dependent Processing in the Vibrissa Sensory System J Neurophysiol, June 1, 2004; 91(6): 2390 - 2399. [Abstract] [Full Text] [PDF]

				R. M. Webber and G. B. Stanley Nonlinear Encoding of Tactile Patterns in the Barrel Cortex J Neurophysiol, May 1, 2004; 91(5): 2010 - 2022. [Abstract] [Full Text] [PDF]

				J. A. Hartings, S. Temereanca, and D. J. Simons Processing of Periodic Whisker Deflections By Neurons in the Ventroposterior Medial and Thalamic Reticular Nuclei J Neurophysiol, November 1, 2003; 90(5): 3087 - 3094. [Abstract] [Full Text] [PDF]