Va. Korshunov et al., PLACE-INDEPENDENT AND BEHAVIOR-INDEPENDENT SENSORY TRIGGERED DISCHARGES IN RAT HIPPOCAMPAL CA1 COMPLEX SPIKE CELLS, Experimental Brain Research, 109(1), 1996, pp. 169-173
To test for access of spatial cues to the hippocampus of unrestrained
animals, single unit recordings of CA1 complex spike cells were made i
n thirsty rats as they made alternating visits between the center and
corners of an enclosed 60x60 cm square arena. At intervals, all lights
were turned off in the arena and it was rotated. Although no neuronal
discharge activity was found that encoded the rotation angle, 11 of 9
7 neurons were selectively activated after lights were turned off or o
n. This activity began at delays of up to several seconds and persiste
d for tens of seconds. These discharges had no location selectivity or
behavioral correlates and continued even as the rat performed several
behaviors in different parts of the arena. This confirms similar resu
lts in restrained rabbits while showing for the first time that this n
euronal activity can be independent of place and behavior. In addition
this shows that sensory stimuli can trigger hippocampal discharges ev
en when the rat is not required to make any behavioral responses to th
em.