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The Journal of Neurophysiology Vol. 84 No. 4 October 2000, pp. 1781-1789
Copyright ©2000 by the American Physiological Society
Department of Anatomy and Developmental Biology, University College London, London WC1E 6BT, United Kingdom
Jenkinson, Edward W. and
Mitchell Glickstein.
Whiskers, Barrels, and Cortical Efferent Pathways in Gap
Crossing by Rats. J. Neurophysiol. 84: 1781-1789, 2000. Rats can readily be trained to jump a gap of around 16 cm in the dark and a considerably larger gap in the light for a food reward. In the light, they use vision to estimate the distance to be
jumped. In the dark, they use their vibrissae at the farthest distances. Bilateral whisker shaving or barrel field lesions reduce the
gap crossed in the dark by about 2 cm. Information from the barrel
fields reaches motor areas via cortico-cortical, basal ganglia, or
cerebellar pathways. The cells of origin of the ponto-cerebellar pathway are segregated in layer Vb of the barrel field. Efferent axons
of Vb cells occupy a central position within the basis pedunculi and
terminate on cells in the pontine nuclei. Pontine cells, in turn,
project to the cerebellar cortex as mossy fibers. We trained normal
rats to cross a gap in the light and in a dark alley that was
illuminated with an infra-red source. When the performance was stable,
we made unilateral lesions in the central region of the basis
pedunculi, which interrupted connections from the barrel field to the
pons while leaving cortico-cortical and basal ganglia pathways intact.
Whisking was not affected on either side by the lesion, and the rats
with unilateral peduncle lesions crossed gaps of the same distance as
they did pre-operatively. Shaving the whiskers on the side of the face
that retains its input to the pontine nuclei reduced the maximal gap
jumped in the dark by the same amount as bilateral whisker shaving.
Performance in the light was not affected. Regrowth of the shaved
whiskers was associated with the recovery of the maximum distance
crossed in the dark. In control cases, shaving the whiskers on the
other side of the face did not reduce the distance jumped in the dark or in the light. These results suggest that the cerebellum must receive
whisker information from the barrel fields for whisker-guided jumps.
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