Abstract
ABSTRACT The frontopolar cortex (FPC) is thought to coordinate the more posterior lateral prefrontal cortex (LPFC) during complex, non-routine behaviors through high-level functions such as management of multiple goals, exploration, and self-generated decision-making. However, direct neurophysiological comparisons with other prefrontal regions are lacking, leaving the FPC’s putative dominance untested. Contrary to this view, our comparison of neuronal activity across the full anteroposterior LPFC in macaques during six distinct tasks probing these functions revealed a posterior-to-mid LPFC dominance, with resource-allocation, novelty-detection (including reward prediction error), and modality invariant decision-monitoring signals all showing a common posterior bias. In contrast, regardless of task demands, the FPC’s strongest encoding was about the most recently executed action, and it displayed minimal object selectivity, even when objects were task-critical. We identified a turning point in this graded posterior-to-anterior transition from task-positive to task-negative regions around the border between the anterior and middle thirds of the LPFC. These findings challenge the prevailing notion that the LPFC is anterior-dominant across primate species, and provide evolutionary constraints on theories of human prefrontal organization.
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ABSTRACT
The frontopolar cortex (FPC) is thought to coordinate the more posterior lateral prefrontal cortex (LPFC) during complex, non-routine behaviors through high-level functions such as management of multiple goals, exploration, and self-generated decision-making. However, direct neurophysiological comparisons with other prefrontal regions are lacking, leaving the FPC’s putative dominance untested. Contrary to this view, our comparison of neuronal activity across the full anteroposterior LPFC in macaques during six distinct tasks probing these functions revealed a posterior-to-mid LPFC dominance, with resource-allocation, novelty-detection (including reward prediction error), and modality invariant decision-monitoring signals all showing a common posterior bias. In contrast, regardless of task demands, the FPC’s strongest encoding was about the most recently executed action, and it displayed minimal object selectivity, even when objects were task-critical. We identified a turning point in this graded posterior-to-anterior transition from task-positive to task-negative regions around the border between the anterior and middle thirds of the LPFC. These findings challenge the prevailing notion that the LPFC is anterior-dominant across primate species, and provide evolutionary constraints on theories of human prefrontal organization.
Competing Interest Statement
The authors have declared no competing interest.
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