Abstract
The basal ganglia are implicated in a range of perceptual functions [1], in addition to their well-known role in the regulation of movement [2]. One unifying explanation for these diverse roles is that the basal ganglia control the level of commitment to particular motor or cognitive outcomes based on the behavioral context [3, 4]. If this explanation is applicable to the allocation of visual spatial attention, then the involvement of basal ganglia circuits should incorporate the subject's expectations about the spatial location of upcoming events as well as the routing of visual signals that guide the response. From the viewpoint of signal detection theory, these changes in the level of commitment might correspond to shifts in the subject's decision criterion, one of two distinct components recently ascribed to visual selective attention [5]. We tested this idea using unilateral optogenetic activation of neurons in the dorsal striatum of mice during a visual spatial attention task [6], taking advantage of the ability to specifically target medium spiny neurons in the "direct" pathway associated with promoting responses [7, 8]. By comparing results across attention task conditions, we found that direct-pathway activation caused changes in performance determined by the spatial probability and location of the visual event. Moreover, across conditions with identical visual stimulation, activation shifted the decision criterion selectively when attention was directed to the contralateral visual field. These results demonstrate that activity through the basal ganglia may play an important and distinct role among the multifarious mechanisms that accomplish visual spatial attention.
Highlights
When the probability of a contralateral event is lower (Figure 1B, middle, bottom), the level of commitment could be decreased by reducing or eliminating the facilitation of right-side circuits. If these processing asymmetries through the basal ganglia are linked to the control of spatial attention, activation of neurons in the striatal direct pathway should alter task performance in ways that depend on the allocation of spatial attention, as well as the location of the visual event
It is crucial to include task conditions that are matched for visual stimulation but differ in spatial attention, so that effects linked to attention can be distinguished from effects due to differences in visual processing
It is important that the salience of the visual event be adjusted to lie near the subject’s psychophysical threshold for detection, so that performance is limited by the efficiency of visual processing rather than by other non-sensory factors, such as behavioral strategy or motivation
Summary
If these processing asymmetries through the basal ganglia are linked to the control of spatial attention, activation of neurons in the striatal direct pathway should alter task performance in ways that depend on the allocation of spatial attention, as well as the location of the visual event. To perform this test, it is crucial to include task conditions that are matched for visual stimulation but differ in spatial attention, so that effects linked to attention can be distinguished from effects due to differences in visual processing. We again verified the allocation of spatial attention by comparing performance across attention task conditions and combined this task design with causal manipulations of activity in the striatal direct pathway
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