Research ReportAn environment-dependent modulation of cortical neural response by forebrain cholinergic neurons in awake rat

- Exposure to novelty increased Fos like-immunoreactivity (FLI) in cingulate cortex (Cg).
- Re-exposure to the familiar environment evoked a differential increase of FLI in CA1.
- Septal cholinergic lesions attenuated the increases in FLI in both Cg and CA1.
- Cholinergic neurons modulate cortical activity in an environment-dependent fashion.

The forebrain cholinergic neurons project to cortex, including the hippocampus and the cingulate cortex (Cg). However, the relative influence of these neurons on behavior-linked neural processing in the two cortical areas remains unclear. We have now examined the effect of destruction of the cholinergic neurons with microinjection of the immunotoxin 192 IgG-saporin into the medial septum on the induction of c-Fos protein, an index of neuronal synaptic excitation, in the two forebrain areas to varied episodic experiences. Separate groups of rats were (a) re-exposed to the laboratory where they had previously undergone a surgery for intraseptal microinjection or (b) exposed to a novel environment. Re-exposure evoked a differential increase in the number of c-Fos positive neurons in dorsal CA1 compared to novelty, while a robust increase was observed in the Cg selectively in the novel environment. Both the differential and the selective increases were strongly attenuated by the cholinergic destruction with intraseptal-immunotoxin. These findings suggest that the cholinergic modulation of the neural processing in the two forebrain areas varies partly in an environment-dependent fashion affecting CA1 neural activation on repeat exposure to an environment where they had a relatively complex aversive experience while favoring Cg neural activation more during novelty.