Cortez AM, Amodeo D, Chavez C, Flesher M, Balbous M, Butt AE (2006) Selective 192 IgG-saporin lesions of the cholinergic basal forebrain impair negative patterning discrimination learning in rats. Neuroscience 2006 Abstracts 162.7. Society for Neuroscience, Atlanta, GA.
Summary: We have previously argued that the cholinergic nucleus basalis magnocellularis (NBM) is necessary for complex or “configural” association learning, but is not necessary for simple association learning. The current experiment further tests the hypothesis that the cholinergic basal forebrain is involved in configural association learning by examining the respective contributions of the NBM projections to neocortex and the medial septal (MS) projections to hippocampus in separate groups of rats. Rats with bilateral 192 IgG-saporin lesions of either the NBM or MS were tested in a negative patterning operant discrimination task. Rats were food-reinforced (+) for responding in the presence of a light (L+) or a tone (T+), but were not reinforced (-) for responding in the presence of the configural stimulus comprised of the light and tone presented simultaneously (LT-). We have previously shown that NBM lesions cause a transient but significant impairment in negative patterning discrimination learning. Consequently, we hypothesized a similar NBM lesion-induced impairment in the current experiment. Because hippocampus lesions cause dramatic disruptions in the acquisition of the negative patterning task, it was hypothesized that lesions of the cholinergic neurons of the MS would cause a greater degree of impairment than NBM lesions. Consistent with our hypotheses, NBM lesions retarded but did not prevent acquisition. MS lesions, in contrast, caused significantly greater impairments than NBM lesions. Rats in both lesion groups responded normally to L+ and T+ but responded more often to LT-. These findings demonstrate intact simple association learning but disrupted configural association following damage to the cholinergic neurons of the NBM or MS. Results suggest that cholinergic basal forebrain modulation of neocortex and hippocampus contributes to configural association learning.
Related Products: 192-IgG-SAP (Cat. #IT-01)