Selective increase of offensive behavior in the rat following intrahypothalamic 5,7-DHT-induced serotonin depletion.

Cerebral serotonin (5-HT) depletions usually increase aggressive behaviors and more specifically facilitate elicitation of offensive behaviors. In order to localize the brain structures involved in this effect, 5,7-dihydroxytryptamine (5,7-DHT), a neurotoxin of 5-HT neurons, was injected into the ascending serotonergic pathway within the lateral hypothalamus, thus depleting 5-HT only in the forebrain structures. The effects of such treatment on offensive and defensive as well as social and non-social behaviors were studied in resident rats confronted with untreated intruders. Pretreatment with desipramine protected noradrenergic neurons. The content of 5-HT fell to 25% of controls, whereas noradrenaline was maintained at 90% in the forebrain anterior to the injection site. Ethological analysis of both resident's and intruder's behavior showed that offensive items were increased in 5,7-DHT-treated residents, whereas defensive items were increased in their non-treated partners; non-social activities were unchanged. Control of mouse-killing behavior during a 2-h test in the same animals showed a clear increase in elicitation of killing in 5,7-DHT-injected rats. These results confirm that the inhibitory control of serotonin is exerted specifically on offensive aggression. They suggest that forebrain structures are involved in this control.