Responses of trigeminal ganglion neurons to the radial distance of contact during active vibrissal touch

doi:10.1152/jn.00571.2005

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Responses of trigeminal ganglion neurons to the radial distance of contact during active vibrissal touch

Marcin Szwed^*, Knarik Bagdasarian, Barak Blumenfeld, Omri Barak, Dori Derdikman, and Ehud Ahissar

^* To whom correspondence should be addressed. E-mail: marcin.szwed{at}weizmann.ac.il.

Rats explore their environment by actively moving their whiskers.Recently, we described how object location in the horizontal(front-back) axis is encoded by first-order neurons in the trigeminalganglion (TG) by spike timing. Here we show how TG neurons encodeobject location along the radial coordinate, i.e., from thesnout outward. Using extracellular recordings from urethane-anesthetizedrats and electrically-induced whisking, we found that TG neuronsencode radial distance primarily by the number of spikes fired.When an object was positioned closer to the whisker root, alltouch-selective neurons recorded fired more spikes. Some ofthese cells responded exclusively to objects located near thebase of whiskers, signaling proximal touch by an identity (labeled-line)code. A number of tonic touch-selective neurons also decreaseddelays from touch to 1st spike and decreased interspike intervals(ISIs) for closer object positions. Information Theory analysisrevealed that near-certainty discrimination between two objectsseparated by 30% of the length of whiskers was possible forsome single cells. However, encoding reliability was usuallylower due to large trial-by-trial response variability. Ourcurrent findings, together with the identity coding suggestedby anatomy for the vertical dimension and the temporal codingof the horizontal dimension, suggest that object location isencoded by separate neuronal variables along the three spatialdimensions: temporal for the horizontal, spatial for the verticaland spike-rate for the radial dimension.

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