Inhibition in the lateral septum increases sucrose intake and decreases anorectic effects of stress.

Sucrose-overeating rats with decreased anorectic response to stress showed lower stress-induced activation of c-fos expression in the lateral septum (LS). The present study tested a hypothesis that neuronal inhibition in the LS is important for the development and maintenance of the sucrose-overeating phenotype. Sucrose overeating was developed with weekly episodes of food restriction (21 h per day, 4 days per week) followed by 1-h access to sucrose. The anorectic effects of stress on 1-h sucrose intake were estimated using weekly foot shock stress sessions. The development of the sucrose-overeating phenotype was accompanied by a decrease in the anorectic effects of stress and by an increase in LS mRNA expression of a γ-aminobutyric acid (GABA) synthesising enzyme, glutamic acid decarboxylase 67 in stressed rats. Direct recordings of neuronal firing in the LS in rats submitted to repeated weekly cycles of food restriction, sucrose refeeding and stress showed that the development of sucrose overeating increased the percentage of LS neurons inhibited during anticipation and at the start of clusters (CS) of sucrose licking. In addition, the CS-excited LS neurons showed a decrease in responsiveness to sucrose during the development of sucrose overeating. Direct injection of baclofen, an agonist of the GABAB receptor, into the LS decreased the anorectic effects of stress and increased sucrose intake. These results suggest that an increase in inhibitory effects in the LS is important for the development of sucrose overeating and the decreased anorectic effects of stress.