Janke KL, Fazelinik S, Roland JJ, Servatius RJ, Servatius RJ, Servatius RJ, Pang K (2009) Role of the medial septum on navigational strategy and shifting between strategies: Effects of selective cholinergic and GABAergic lesions. Neuroscience 2009 Abstracts 283.5/EE134. Society for Neuroscience, Chicago, IL.
Summary: Cholinergic and GABAergic neurons are major components of the septohippocampal pathway, and comparisons between the two neuronal populations are important for understanding the function of medial septum-vertical limb of the diagonal band (MSDB). Recently, we have been investigating the importance of MSDB neurons in cognitive flexibility. Cognitive flexibility is commonly examined in reversal of stimulus-reward associations and attention set shifting. The present studies examine whether selective lesions of cholinergic or GABAergic MSDB neurons impair shifting between egocentric and allocentric navigation strategies. Sprague Dawley rats were administered saline, GAT1-saporin or 192-IgG saporin into the MSDB to produce no damage, selective GABAergic damage or selective cholinergic damage, respectively. Lesion verification will be performed using immunocytochemistry at the end of the studies. In a plus maze, rats started in one of two arms opposite each other (i.e., north and south arms) randomized across trials. On any single trial, the arm opposite the starting arm was blocked forming a T-maze. Rats have a choice of entering one of the remaining 2 arms (east or west arms) for food reinforcement. During the acquisition phase of the first study, rats were reinforced to enter a particular arm (east or west: allocentric response) regardless of their starting location. After they reached criteria (10 consecutive correct choices), the goal location was either reversed (east to west) or shifted to an egocentric response strategy (left or right turn). Animals that received either GAT-1-saporin (.26 ug/ul) or 192-IgG saporin (.217ug/ul) lesion reached criteria faster than saline treated rats. No significant effects of either lesion were observed on spatial reversal or strategy shifts. However, qualitative assessment of the damage suggests that GAT1-saporin may have produced an incomplete lesion. Therefore, a second study using GAT1-saporin at .325 ug/ul was conducted. For this study, half of the rats were trained on an egocentric strategy and the other rats are reinforced for an allocentric response. When rats reached criteria, half of each group was trained in a reversal learning or strategy shift. Preliminary data show that rats treated with GAT1-saporin or saline learned the initial egocentric or allocentric strategy at a similar rate. However, animals were faster to reach criteria in the allocentric condition than the egocentric condition. Reversal learning and strategy shifting in the second study is currently being assessed. The results of this study will provide important insight into the role of the MSDB in learning and cognitive flexibility.
Related Products: 192-IgG-SAP (Cat. #IT-01), GAT1-SAP (Cat. #IT-32)