Enhancing Prefrontal Neuron Activity Enables Associative Learning of Temporally Disparate Events

• Increasing excitation in the rat mPFC enables learning over extended time intervals
• LFP theta and beta are ramped up during successful learning
• LFP ramping is correlated with conditioned responses on a trial-by-trial basis
• The ramping is not correlated with the same movements in other conditions

SummaryThe ability to link events that are separated in time is important for extracting meaning from experiences and guiding behavior in the future. This ability likely requires the brain to continue representing events even after they have passed, a process that may involve the prefrontal cortex and takes the form of sustained, event-specific neuron activity. Here, we show that experimentally increasing the activity of excitatory neurons in the medial prefrontal cortex (mPFC) enables rats to associate two stimuli separated by a 750-ms long temporal gap. Learning is accompanied by ramping increases in prefrontal theta and beta rhythms during the interval between stimuli. This ramping activity predicts memory-related behavioral responses on a trial-by-trial basis but is not correlated with the same muscular activity during non-memory conditions. Thus, the enhancement of prefrontal neuron excitability extends the time course of evoked prefrontal network activation and facilitates the formation of associations of temporally disparate, but correlated, events.

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