The bidirectional interaction between ventral tegmental rewarding and hindbrain aversive stimulation effects in the rat

We used the curve-shift procedure in self-stimulating rats to examine the interaction of aversive and rewarding electrical stimuli in terms of duration and direction. The subjects were implanted with two moveable electrodes, one in a region supporting self-stimulation (the ventral tegmental area, VT...

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Bibliographic Details
Published in:Brain research 1995-08, Vol.688 (1), p.15-20
Main Authors: Anderson, Roberta, Diotte, Magali, Miliaressis, Eleftherios
Format: Article
Language:English
Subjects:
Analgesia
Anatomical correlates of behavior
Animals
Aversion
Avoidance Learning - physiology
Behavioral psychophysiology
Biological and medical sciences
Brain stimulation reward
Electric Stimulation
Fundamental and applied biological sciences. Psychology
Male
Nucleus reticularis gigantocellularis
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Rats
Rats, Sprague-Dawley
Reaction Time - physiology
Reward
Rhombencephalon - physiology
Self Stimulation - physiology
Self-stimulation
Ventral tegmental area
Ventral Tegmental Area - physiology
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Summary:We used the curve-shift procedure in self-stimulating rats to examine the interaction of aversive and rewarding electrical stimuli in terms of duration and direction. The subjects were implanted with two moveable electrodes, one in a region supporting self-stimulation (the ventral tegmental area, VTA) and another in a region supporting escape (the nucleus reticularis gigantocellularis, Gi). The function relating self-stimulation rate to pulse frequency (RF function) was first obtained and then replicated in a condition where each VTA pulse was followed 0.2 or 2.0 ms later by a Gi pulse. The intensity of Gi pulses was set at a value previously found to elicit escape within less than 5 sec. The following observations were made: (1) rats self-stimulated consistently, despite the presence of Gi pulses, (2) the presence of Gi pulses shifted the RF function rightward (decreased the rewarding efficacy of VTA stimulation), with little effect on the maximum rate, (3) after 2 to 5 VTA-Gi self-stimulation sessions, the Gi pulses progressively lost their ability to shift the RF function, and (4) at the end of testing, escape was no longer detectable using Gi pulses alone. It was concluded that (1) the interaction between rewarding VTA and aversive Gi stimulation effects is bidirectional, thus suggesting the presence of algebraic summation; (2) the effect of Gi on VTA reward is transient whereas that of VTA on Gi aversion cumulates and eventually results in total abolition of Gi aversion. The present study represents the first account of cumulative and long-lasting suppression of aversion following brain stimulation in the rat.
ISSN:0006-8993
1872-6240
DOI:10.1016/0006-8993(95)00462-Y