Current Flow in Vibrissa Motor Cortex Can Phase-Lock With Exploratory Rhythmic Whisking in Rat

doi:10.1152/jn.00020.2004

Current Flow in Vibrissa Motor Cortex Can Phase-Lock With Exploratory Rhythmic Whisking in Rat

Kurt F. Ahrens¹^,3 and David Kleinfeld¹^,2

¹Department of Physics and ²Neurosciences Graduate Program, University of California at San Diego, La Jolla, California 92093; and ³Center for Molecular and Behavioral Neuroscience, Rutgers University, Newark, New Jersey 07102

Submitted 8 January 2004; accepted in final form 4 April 2004

Rats explore their environment with rhythmic sweeps of theirmystacial vibrissae in the range of 5–15 Hz. We testedif vibrissa primary motor (M1) cortex produces electrical activitythat locks to this behavioral output. Rats were trained to whiskin air in search of a food reward. The EMG of the mystacialpad served as a surrogate of vibrissa position, while chronicallyimplanted, 16-channel Si-based probes provided a record of fieldpotentials throughout the depth of vibrissa M1 cortex as wellas vibrissa primary somatosensory (S1) cortex. The measuredpotentials were used to estimate the current source densityalong the radial axis. We observed that current flow throughoutthe depth of M1 cortex is coherent with the mystacial EMG, i.e.,the two signals co-vary with a defined phase relation. Thiscoherence persists after transection of the infraorbital branch(IoN) of the trigeminal nerve, which provides the sole sensoryinput from the vibrissae. Furthermore, current flow in vibrissaS1 cortex that is coherent with the mystacial EMG also persistsafter transection of the IoN, consistent with anatomical pathwaysbetween M1 and S1. In combination with a previous observationthat rhythmic, intracortical microstimulation of vibrissa M1cortex can drive normal whisking motion, the present data supportthe hypothesis that, in principle, M1 cortex can initiate motionof the vibrissae on a cycle-by-cycle basis.

Address for reprint requests and other correspondence: D. Kleinfeld, Dept. of Physics 0374, Univ. of California, 9500 Gilman Dr., La Jolla, CA 92093 (E-mail: dk{at}physics.ucsd.edu).

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				R. M. Webber and G. B. Stanley Transient and Steady-State Dynamics of Cortical Adaptation J Neurophysiol, May 1, 2006; 95(5): 2923 - 2932. [Abstract] [Full Text] [PDF]

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