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. Ahrens and David Kleinfeld^*

^* To whom correspondence should be addressed. E-mail: dk{at}physics.ucsd.edu.

Rats explore their environment with rhythmic sweeps of theirmystacial vibrissae in the range of 5 to 15 Hz. We tested ifvibrissa primary motor (M1) cortex produces electrical activitythat locks to this behavioral output. Rats were trained towhisk in air in search of a food reward. The electromyogram(EMG) of the mystacial pad served as a surrogate of vibrissaposition while chronically implanted, 16-channel Si-based probesprovided a record of field potentials throughout the depth ofvibrissa M1 cortex as well as vibrissa primary somatosensory(S1) cortex. The measured potentials were used to estimatethe current source density along the radial axis. We observedthat current flow throughout the depth of M1 cortex is coherentwith the mystacial EMG, i.e., the two signals co-vary with adefined phase relation. This coherence persists upon transectionof the infraorbital branch (IoN) of the trigeminal nerve, whichprovides the sole sensory input from the vibrissae. Further,current flow in vibrissa S1 cortex that is coherent with themystacial EMG also persists upon transection of the IoN, consistentwith anatomical pathways between M1 and S1. In combinationwith a previous observation that rhythmic, intracortical microstimulationof vibrissa M1 cortex can drive normal whisking motion, thepresent data support the hypothesis that, in principle, M1 cortexcan initiate motion of the vibrissae on a cycle-by-cycle basis.

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