Broussard JI, Venugopal S, Sarter M, Givens B (2006) Cholinergic modulation of posterior parietal neuronal activity associated with the detection of signals in attentional task-performing rats. Neuroscience 2006 Abstracts 369.7. Society for Neuroscience, Atlanta, GA.
Summary: The posterior parietal cortex (PPC) is considered a major component of the brains’ attention systems, specifically of the orientation control network. This network controls the selection of stimuli, especially if stimuli are presented at unpredictable or multiple locations. Thus, mechanisms optimizing stimulus detection are hypothesized to represent fundamental components of the processes mediated via neuronal circuitry involving the PPC. Previous studies indicated the role of basal forebrain cholinergic projections to the cortex in the detection of signals. Furthermore, we demonstrated that performance of an attentional task involving signal detection activates PPC neurons in rat, specifically if signals are followed by a behavioral response indicating successful detection. The present experiment was designed to test the hypothesis that signal detection-related activation of PPC neurons depends on the integrity of cholinergic inputs to the PPC. Animals were trained to perform an operant sustained attention task involving signal detection as well as responding to non-signal events. Animals were equipped with a drivable headstage to insert stereotrodes into the PPC. After recording PPC neuronal activity during several baseline sessions, including the effects of a distractor, cholinergic projections to the PPC were lesioned by infusing 192 IgG-saporin into the recording region. Recordings from control animals prior to and after saline infusions (599 neurons total) indicate that PPC neurons (56 %) display increases in single unit activity evoked by detected visual signals. Presentation of a visual distractor reduced the number of signal detections but did not alter the detection-associated firing characteristics of PPC neurons, and relatively few neurons were modulated by the onset or offset of the distractor (8%). Unilateral, restricted removal of cholinergic inputs to the PPC did not affect the animals’ detection rate but reduced the proportion of neurons showing detection-related increases in neuronal activity (27 %). These data support the hypothesis that cholinergic inputs to the PPC mediates the detection of signals and thus contributes to the fundamental attentional processing mediated via PPC circuitry.
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