光遗传学
神经科学
前额叶皮质
认知灵活性
认知
神经活动
显著性(神经科学)
运动前神经元活动
心理学
生物神经网络
神经元
慢性应激
灵活性(工程)
睡眠剥夺对认知功能的影响
扣带回前部
计算机科学
生物
基本认知任务
医学
神经网络
刚度(电磁)
作者
Shaorong Ma,Kuan Hong Wang,Yi Zuo
标识
DOI:10.1038/s41467-026-72221-1
摘要
Cognitive rigidity often follows chronic stress and is prevalent in stress-related psychiatric disorders, yet the underlying neural circuit mechanisms remain unclear. Using attentional set-shifting tasks (AST) in mice, we identified projection from the anterior insular cortex to the medial prefrontal cortex (aIC→mPFC) as key regulators of adaptive decision-making. The aIC→mPFC neurons show heightened activity following incorrect, but not correct, trials. This elevated activity persists into subsequent trials, providing a salience signal that enhances mPFC outcome-dependent updating and promotes convergence of neural activity patterns across trials. Optogenetic manipulation of aIC→mPFC projections during the pre-decision phase disrupts mPFC updating and impairs AST performance. Moreover, chronic stress disrupts the outcome-dependence of aIC activity and impairs cognitive flexibility. Crucially, selectively reinforcing aIC→mPFC activity after incorrect trials via optogenetics enhances mPFC updating, improves neural activity convergence across trials, and restores cognitive flexibility in stressed mice. These findings revealed a previously unrecognized role of the aIC→mPFC circuit in linking trial outcomes to adaptive decision-making and identified this pathway as a promising target for treating stress-induced cognitive rigidity.
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