Stimulus specific adaptation in excited but not in inhibited cells in inferotemporal cortex of Macaque

Many cells in inferotemporal cortex respond more actively to a novel presentation than to a subsequent re-presentation of the same image, exhibiting stimulus specific adaptation (SSA). Previously, analysis of this adaptation was limited to visually excited cells, excluding visually inhibited cells. In the present experiment we studied 654 cells in four macaques performing visual tasks. Strong SSA (P < 0.0001) was observed in those cells which were excited by visual stimuli. This adaptation was also seen in the subset of such cells which, though excited by visual stimuli, failed to show visual specificity in their responses. Interestingly, no SSA (P > 0.1) was observed in the group of cells inhibited by visual stimuli. Furthermore, most inhibited cells failed to show visual specificity. This lack of visual specificity and SSA suggests that the visually inhibited cells have a limited role in the detailed information processing of visual perception and memory activated by the tasks used in the present experiments.

[1]  J. Ringo,et al.  Indirect inputs to ventral temporal cortex of monkey: the influence of unit activity of alerting auditory input, interhemispheric subcortical visual input, reward, and the behavioral response. , 1993, Journal of neurophysiology.

[2]  C. Gross Visual Functions of Inferotemporal Cortex , 1973 .

[3]  I. Riches,et al.  The effects of visual stimulation and memory on neurons of the hippocampal formation and the neighboring parahippocampal gyrus and inferior temporal cortex of the primate , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[4]  J L Ringo,et al.  Eye movements modulate activity in hippocampal, parahippocampal, and inferotemporal neurons. , 1994, Journal of neurophysiology.

[5]  B. Richmond,et al.  Implantation of magnetic search coils for measurement of eye position: An improved method , 1980, Vision Research.

[6]  J. A. Horel,et al.  The performance of visual tasks while segments of the inferotemporal cortex are suppressed by cold , 1987, Behavioural Brain Research.

[7]  P. Dean Choice reaction times for pattern discriminations in monkeys with inferotemporal lesions. , 1974, Neuropsychologia.

[8]  D. Robinson,et al.  A METHOD OF MEASURING EYE MOVEMENT USING A SCLERAL SEARCH COIL IN A MAGNETIC FIELD. , 1963, IEEE transactions on bio-medical engineering.

[9]  D. Pandya,et al.  Afferent cortical connections and architectonics of the superior temporal sulcus and surrounding cortex in the rhesus monkey , 1978, Brain Research.

[10]  M. W. Brown,et al.  Neuronal evidence that inferomedial temporal cortex is more important than hippocampus in certain processes underlying recognition memory , 1987, Brain Research.

[11]  R. Desimone,et al.  A neural mechanism for working and recognition memory in inferior temporal cortex. , 1991, Science.

[12]  R. Desimone,et al.  The representation of stimulus familiarity in anterior inferior temporal cortex. , 1993, Journal of neurophysiology.