Data from: Persistent firing in LEC III neurons is differentially modulated by learning and aging

  • Carmen Lin (Creator)
  • Venus N. Sherathiya (Creator)
  • M Matthew Oh (Northwestern University Feinberg School of Medicine, Northwestern University) (Creator)
  • John F Disterhoft (Creator)

Dataset

Description

Whether and how persistent firing in lateral entorhinal cortex layer III (LEC III) supports temporal associative learning is still unknown. In this study, persistent firing was evoked in vitro from LEC III neurons from young and aged rats that were behaviorally naïve or trained on trace eyeblink conditioning. Persistent firing ability from neurons from behaviorally naïve aged rats was lower compared to neurons from young rats. Neurons from learning impaired aged animals also exhibited reduced persistent firing capacity, which may contribute to aging-related learning impairments. Successful acquisition of the trace eyeblink task, however, increased persistent firing ability in both young and aged rats. These changes in persistent firing ability are due to changes to the afterdepolarization, which may in turn be modulated by the postburst afterhyperpolarization. Together, these data indicate that successful learning increases persistent firing ability and d ecreases in persistent firing ability contribute to learning impairments in aging.
Date made availableJul 22 2020
PublisherDryad

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