Abstract
Local field potential (LFP) oscillations in the brain reflect organization thought to be important for perception, attention, movement, and memory. In the basal ganglia, including dorsal striatum, dysfunctional LFP states are associated with Parkinson's disease, while in healthy subjects, dorsal striatal LFPs have been linked to decision-making processes. However, LFPs in ventral striatum have been less studied. We report that in rats running a spatial decision task, prominent gamma-50 (45–55 Hz) and gamma-80 (70–85 Hz) oscillations in ventral striatum had distinct relationships to behavior, task events, and spiking activity. Gamma-50 power increased sharply following reward delivery and before movement initiation, while in contrast, gamma-80 power ramped up gradually to reward locations. Gamma-50 power was low and contained little structure during early learning, but rapidly developed a stable pattern, while gamma-80 power was initially high before returning to a stable level within a similar timeframe. Putative fast-spiking interneurons (FSIs) showed phase, firing rate, and coherence relationships with gamma-50 and gamma-80, indicating that the observed LFP patterns are locally relevant. Furthermore, in a number of FSIs such relationships were specific to gamma-50 or gamma-80, suggesting that partially distinct FSI populations mediate the effects of gamma-50 and gamma-80.
Highlights
Local field potential (LFP) oscillations are thought to reflect organization underlying a wide range of processes across different brain areas, including attention, perception, movement planning and initiation, and memory (Buzsáki, 2006; Fries et al, 2007; Lisman, 2005)
Putative fast-spiking interneurons (FSIs) exhibited a variety of spiking relationships with both gamma-50 and gamma-80, including phase preference, independent firing rate tuning to gamma-50 and gamma-80 power, and independent coherence at gamma-50 and gamma-80
ARE GAMMA-50 AND GAMMA-80 GENERATED IN VENTRAL STRIATUM? We found relationships between putative FSI spiking activity and gamma oscillations using four different approaches: spike-triggered average (STA), phase preference, firing rate changes with gamma power, and spike-field coherency
Summary
Local field potential (LFP) oscillations are thought to reflect organization underlying a wide range of processes across different brain areas, including attention, perception, movement planning and initiation, and memory (Buzsáki, 2006; Fries et al, 2007; Lisman, 2005). In the basal ganglia abnormal LFP patterns are a key biomarker for Parkinson’s disease, as indicated by correlations between LFP properties and the severity of movement-related impairments (Brown, 2007; Hammond et al, 2007). Treatment by deep brain stimulation (DBS) or levodopa reduces pathological LFP patterns while alleviating symptoms (Brown, 2003; Perlmutter and Mink, 2006). In healthy subjects (rats), dorsal striatal LFPs have been linked to learning and performance of a procedural maze task (DeCoteau et al, 2007; Tort et al, 2008). Such findings suggest that dorsal striatal LFPs are associated with functionally relevant processing in movement-related as well as more cognitive settings
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