强化学习巩固的小白蛋白中间神经元可塑性。

Matteo Tripodi, Komal Bhandari, Ananya Chowdhury, Arghya Mukherjee, Pico Caroni
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引用次数: 13

摘要

小白蛋白(PV)篮细胞是广泛存在的局部中间神经元,通过细胞周围钮扣抑制主神经元和彼此。它们增强网络功能并调节局部集合活动,特别是在γ范围内。在习得后11-15小时,有组织的网络活动对长期记忆的巩固至关重要。在这里,我们讨论了学习相关的可塑性在PV神经元中对长期记忆巩固的作用。可塑性可导致PV/GAD67表达增强(高PV)或降低(低PV)。高PV可塑性是由早出生的PV篮细胞的明确强化学习诱导的,而低PV可塑性是由晚出生的PV篮细胞的临时强化学习诱导的。这种可塑性在习得后6小时,即通过经验形成记忆的时间窗口结束时首次被检测到,并且在习得后11-15小时对增强的网络活动和长期记忆巩固至关重要。高PV可塑性和低PV可塑性似乎调节了主神经元和PV篮细胞的不同局部网络的活动。这些发现表明,学习和记忆的灵活性和稳定性是如何通过并行电路和网络实现的。
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Parvalbumin Interneuron Plasticity for Consolidation of Reinforced Learning.

Parvalbumin (PV) basket cells are widespread local interneurons that inhibit principal neurons and each other through perisomatic boutons. They enhance network function and regulate local ensemble activities, particularly in the γ range. Organized network activity is critically important for long-term memory consolidation during a late time window 11-15 h after acquisition. Here, we discuss the role of learning-related plasticity in PV neurons for long-term memory consolidation. The plasticity can lead to enhanced (high-PV) or reduced (low-PV) expression of PV/GAD67. High-PV plasticity is induced upon definite reinforced learning in early-born PV basket cells, whereas low-PV plasticity is induced upon provisional reinforced learning in late-born PV basket cells. The plasticity is first detectable 6 h after acquisition, at the end of a time window for memory specification through experience, and is critically important 11-15 h after acquisition for enhanced network activity and long-term memory consolidation. High- and low-PV plasticity appear to regulate activity in distinct local networks of principal neurons and PV basket cells. These findings suggest how flexibility and stability in learning and memory might be implemented through parallel circuits and networks.

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