Relationship between the locomotor hyperactivity induced by A₁₀ lesions and the destruction of the frontocortical dopaminergic innervation in the rat

Abstract

Bilateral high frequency lesions of the ventral tegmental area (VTA) in the rat induce a behavioral syndrome characterized by a permanent locomotor hyperactivity and a reduction of attention capacities. The VTA contains the cell bodies of the mesocortical and mesolimbic dopaminergic (DA) systems but is also rich in serotoninergic (5-HT) fibers which originate from the raphe nuclei and innervate the forebrain. In order to establish possible correlation(s) between the destruction of specific aminergic system(s) and some of the behavioral effects of VTA lesions, rat locomotor activities were recorded and DA, 5-HT and norepinephrine (NE) were estimated in discrete areas of the forebrain using specific and sensitive radioenzymatic methods.

VTA lesions greatly affected DA and 5-HT levels in the forebrain but only induced minor effects on cortical NE.

No significant correlations were found between the changes in locomotor activity and the reduction of 5-HT levels in the parietal and rhinal cortices, the striatum and the hippocampus.

On the other hand, a very good correlation was observed between the increase in locomotor activity and the decrease in DA content in the frontal cortex (r= −0.82,n= 20, P < 0.01). Although not as striking, a correlation was also found between the changes in locomotor activity and those of DA levels in the nucleus accumbens, a structure innervated by the mesolimbic DA system (r= −0.47,n= 24, P < 0.05).

A comparison between changes in DA levels in the frontal cortex and the nucleus accumbens after VTA lesions suggested that cell bodies of the mesocortical and mesolimbic DA systems, although very close, are not the same.

It cannot be excluded that the mesolimbic DA system plays a role in the ‘VTA syndrome’. However, it is clear that the disappearance of DA in the frontal cortex is critical for the development of the non-vicarious locomotor hyperactivity. This suggests that the dopaminergic neurons which innervate the frontal cortex exert an inhibitory role on locomotor behavior.