Abstract
Top-down attention is a dynamic cognitive process that facilitates the detection of the task-relevant stimuli from our complex sensory environment. A neural mechanism capable of deployment under specific task-demand conditions would be crucial to efficiently control attentional processes and improve promote goal-directed attention performance during fluctuating attentional demand. Previous studies have shown that frontal top-down neurons projecting from the anterior cingulate area (ACA) to the visual cortex (VIS; ACAVIS) are required for visual attentional behavior during the 5-choice serial reaction time task (5CSRTT) in mice. However, it is unknown whether the contribution of these projecting neurons is dependent on the extent of task demand. Here, we first examined how behavior outcomes depend on the number of locations for mice to pay attention and touch for successful performance, and found that the 2-choice serial reaction time task (2CSRTT) is less task demanding than the 5CSRTT. We then employed optogenetics to demonstrate that suppression ACAVIS projections immediately before stimulus presentation has no effect during the 2CSRTT in contrast to the impaired performance during the 5CSRTT. These results suggest that ACAVIS projections are necessary when task demand is high, but once a task demand is lowered, ACAVIS neuron activity becomes dispensable to adjust attentional performance. These findings support a model that the frontal-sensory ACAVIS projection regulates visual attention behavior during specific high task demand conditions, pointing to a flexible circuit-based mechanism for promoting attentional behavior.
Highlights
Top-down attention is a fundamental cognitive process that facilitates the detection of the most pivotal goal-directed stimuli from our dynamic environment
We found that suppressing ACAVIS projections during the 3 s immediately before stimulus presentation (−3:0 s) impaired performance during the 5choice serial reaction time task (5CSRTT), reducing correct trials [Figure 3F general linear mixed model (GLMM) effect of light during 5C task P = 0.0114] by increasing omission (Figure 3G effect of light during 5C task P = 0.0001), no effect was observed during the 2-choice serial reaction time task (2CSRTT)
We first characterized how attentional behavior outcomes depend on the number of locations for mice to scan and touch for successful performance, and found that the 2CSRTT is less task demanding than the 5CSRTT
Summary
Top-down attention is a fundamental cognitive process that facilitates the detection of the most pivotal goal-directed stimuli from our dynamic environment. Among ACA neurons, recent studies in mice have demonstrated that frontal-sensory projections from the ACA to the primary visual cortex (VIS) (ACAVIS) modulate visual discrimination (Zhang et al, 2014; Moore and Zirnsak, 2017) and free-moving attentional behavior (Norman et al, 2021a) through modulation of visual cortex processing (Norman et al, 2021b). It is not known whether the contribution of this top-down circuit depends on task demand. We aimed to determine how task demand impacts the contribution of frontal-sensory projection neurons to attentional behavior
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