Abstract
The functional role of the basal ganglia (BG) in the gating of suitable motor responses to the cortex is well established. Growing evidence supports an analogous role of the BG during working memory encoding, a task phase in which the “input-gating” of relevant materials (or filtering of irrelevant information) is an important mechanism supporting cognitive capacity and the updating of working memory buffers. One important aspect of stimulus relevance is the novelty of working memory items, a quality that is understudied with respect to its effects on corticostriatal function and connectivity. To this end, we used functional magnetic resonance imaging (fMRI) in 74 healthy volunteers performing an established Sternberg working memory task with different task phases (encoding vs. retrieval) and degrees of stimulus familiarity (novel vs. previously trained). Activation analyses demonstrated a highly significant engagement of the anterior striatum, in particular during the encoding of novel working memory items. Dynamic causal modeling (DCM) of corticostriatal circuit connectivity identified a selective positive modulatory influence of novelty encoding on the connection from the dorsolateral prefrontal cortex (DLPFC) to the anterior striatum. These data extend prior research by further underscoring the relevance of the BG for human cognitive function and provide a mechanistic account of the DLPFC as a plausible top-down regulatory element of striatal function that may facilitate the “input-gating” of novel working memory materials.
Highlights
Corticostriatal circuits play an important role in the experience-dependent reorganization of human behavior and have been implicated in the formation of motor and cognitive symptoms in neuropsychiatric disorders including schizophrenia and Parkinson’s disease (Shepherd 2013)
Based on the published literature (Gruber et al 2006; O’Reilly and Frank 2006) and our own activation findings, we focused on the functional interaction of two key cognitive nodes in the cortical-striatal circuitry, the dorsolateral prefrontal cortex (DLPFC) and the downstream input node for excitatory projections from the prefrontal cortex at the level of the basal ganglia in the anterior striatum
Since we focused on the dorsolateral prefrontal loop within the corticostriatal circuits (Alexander et al 1986), only the anterior part of the putamen and the head of the caudate nucleus were chosen (MNI y ≥ −1) We subsequently defined subject-specific volumes of interest (VOIs) by superimposing the masks to the first-level statistical images of the “encoding-novel > encoding practice” contrast, identifying the peak statistical voxel within each mask, centering 6 mm spheres around the peak voxels, and extracting the first eigenvariate from these spheres
Summary
Corticostriatal circuits play an important role in the experience-dependent reorganization of human behavior and have been implicated in the formation of motor and cognitive symptoms in neuropsychiatric disorders including schizophrenia and Parkinson’s disease (Shepherd 2013). Studies in healthy controls further highlight the relevance of basal ganglia activation for working memory encoding (Chang et al 2007; McNab and Klingberg 2008; Moore et al 2013), a task phase in which the “input-gating” of relevant materials (or filtering of irrelevant information) is an important mechanism to enhance working memory capacity (McNab and Klingberg 2008). Other data suggest that the striatal gating mechanism during working memory encoding may extend to other task-relevant stimulus attributes including the novelty or increased cognitive demands of the materials (Chang et al 2007; Landau et al 2004; Nee and Brown 2013). The proposed corticostriatal control mechanism that supports the proposed input-gating of relevant information during working memory encoding is still underexplored
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