Corticofugal amplification of subcortical responses to single tone stimuli in the mustached bat.

Since 1962, physiological data of corticofugal effects on subcortical auditory neurons have been controversial: inhibitory, excitatory, or both. An inhibitory effect has been much more frequently observed than an excitatory effect. Recent studies performed with an improved experimental design indicate that corticofugal system mediates a highly focused positive feedback to physiologically "matched" subcortical neurons, and widespread lateral inhibition to "unmatched" subcortical neurons, in order to adjust and improve information processing. These results lead to a question: what happens to subcortical auditory responses when the corticofugal system, including matched and unmatched cortical neurons, is functionally eliminated? We temporarily inactivated both matched and unmatched neurons in the primary auditory cortex of the mustached bat with muscimol (an agonist of inhibitory synaptic transmitter) and measured the effect of cortical inactivation on subcortical auditory responses. Cortical inactivation reduced auditory responses in the medial geniculate body and the inferior colliculus. This reduction was larger (60 vs. 34%) and faster (11 vs. 31 min) for thalamic neurons than for collicular neurons. Our data indicate that the corticofugal system amplifies collicular auditory responses by 1.5 times and thalamic responses by 2.5 times on average. The data are consistant with a scheme in which positive feedback from the auditory cortex is modulated by inhibition that may mostly take place in the cortex.

[1]  R. Andersen,et al.  The topographic organization of corticocollicular projections from physiologically identified loci in the AI, AII, and anterior auditory cortical fields of the cat , 1980, The Journal of comparative neurology.

[2]  N. Suga,et al.  Specificity of combination-sensitive neurons for processing of complex biosonar signals in auditory cortex of the mustached bat. , 1983, Journal of neurophysiology.

[3]  N. Weinberger,et al.  Corticofugal modulation of the medial geniculate body , 1976, Experimental Neurology.

[4]  N Suga,et al.  The personalized auditory cortex of the mustached bat: adaptation for echolocation. , 1987, Journal of neurophysiology.

[5]  G. Amato,et al.  The control exerted by the auditory cortex on the activity of the medial geniculate body and inferior colliculus. , 1969, Archivio di scienze biologiche.

[6]  L. C. Massopust,et al.  Auditory organization of the inferior colliculi in the cat. , 1962, Experimental neurology.

[7]  P. Jen,et al.  Corticofugal control of central auditory sensitivity in the big brown bat, Eptesicus fuscus , 1996, Neuroscience Letters.

[8]  J. Popelář,et al.  Inferior colliculus in the rat: Neuronal responses to stimulation of the auditory cortex , 1984, Neuroscience Letters.

[9]  N Suga,et al.  Corticofugal Modulation of Time-Domain Processing of Biosonar Information in Bats , 1996, Science.

[10]  P. Andersen,et al.  Cortico-fugal facilitation of thalamic transmission. , 1972, Brain, behavior and evolution.

[11]  N. Suga,et al.  Corticofugal modulation of frequency processing in bat auditory system , 1997, Nature.

[12]  N. Suga,et al.  Neural basis of amplitude-spectrum representation in auditory cortex of the mustached bat. , 1982, Journal of neurophysiology.

[13]  J. He,et al.  Modulatory effects of regional cortical activation on the onset responses of the cat medial geniculate neurons. , 1997, Journal of neurophysiology.

[14]  O. W. Henson,et al.  The descending auditory pathway and acousticomotor systems: connections with the inferior colliculus , 1990, Brain Research Reviews.

[15]  E. Mugnaini,et al.  Distribution of descending projections from primary auditory neocortex to inferior colliculus mimics the topography of intracollicular projections , 1996, The Journal of comparative neurology.

[16]  Joachim Ostwald,et al.  Topography of projections from the auditory cortex to the inferior colliculus in the rat , 1991, The Journal of comparative neurology.

[17]  P. Jen,et al.  Corticofugal influences on the responses of bat inferior collicular neurons to sound stimulation , 1989, Brain Research.

[18]  N Suga,et al.  Cortical computational maps control auditory perception , 1991, Science.