Multiple- and Single-Unit Activity in Area 32 (Prelimbic Region) of the Medial Prefrontal Cortex during Pavlovian Heart Rate Conditioning in Rabbits

doi:10.1093/cercor/4.3.230

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Cerebral Cortex 1994; 4:230-246
© Oxford University Press 1994

research-article

Multiple- and Single-Unit Activity in Area 32 (Prelimbic Region) of the Medial Prefrontal Cortex during Pavlovian Heart Rate Conditioning in Rabbits

Brian Maxwell², D. A. Powell¹^,2^,3^, and Shirley L. Buchanan¹^,2

¹ Wm. Jennings Bryan Dorn VA Medical Center Columbia, South Carolina 29201, ² Department of Psychology, University of South Carolina Columbia, South Carolina 29208, ³ Department of Neuropsychiatry and Behavioral Science, University of South Carolina School of Medicine Columbia, South Carolina 29201

Correspondence should be addressed to D. A. Powell, Ph.D., Neuroscience Laboratory (151A), VA Medical Center, Columbia, SC 29201

Data from both brain lesion and brain stimulation experimentssuggest that area 32 of the medial prefrontal cortex (prelimbicarea) participates in the acquisition and/or expression of conditionedbradycardia. This report describes experiments designed to determinewhether cells in this area of the brain exhibit changes in neuralactivity during classical conditioning that can be related tothese learned heart rate changes. Thus, multiple- and single-unitactivity was recorded from area 32 in rabbits during Pavlovianheart rate (HR) conditioning. In the first experiment, neuronaldischarge recorded from chronically implanted multiple-unitelectrodes in the superficial and deep layers of area 32 increasedsystematically in response to the presentation of tone conditionedstimuli (CS) paired with paraorbital electric shock as the unconditionedstimulus (US). This tone-evoked increase in multiple-unit activity(MUA) closely paralleled the acquisition of the decelerativeHR conditioned response in animals that received paired CS/USpresentations, but was of smaller amplitude in animals givenunpaired CS/US presentations. Tone-evoked increases in MUA alsooccurred during tone-alone presentations prior to training,but this activity declined over trials. During extinction, CS-evokedMUA increases also declined over trials. These findings suggestthat the CS-evoked increase in neuronal activity in area 32was associatively produced. A second experiment examined theCS-evoked response of single units (n = 98) in area 32 duringdifferential Pavlovian conditioning, in which one tone (CS⁺)was consistently followed by the paraorbital shock US and asecond tone (CS^–) was not. Four types of cells were found:(1) 32% of the cells studied showed no change in response toeither CS⁺ or CS^– presentation, (2) 48% showed CS-evokedincreases to either CS⁺ or CS^–, (3) 14% showed CS-evokeddecreases to CS⁺ or CS^–, and (4) 7% showed a biphasicresponse, in which an increase was followed by a decrease inactivity. These cell types are similar to those previously foundin the more dorsal anterior cingulate cortex (area 24) and frontaleyefields (area 8). However, a major difference between thepresent findings and those of our previous studies of areas8 and 24 is that in several instances changes in CS-evoked activityin area 32 were significantly greater in response to the CS^–than to the CS⁺ suggesting that some cells in the prelimbicregion may code the absence of aversive stimulation, that is,a period of relative "safety."

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