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Cerebellar Processing Common to Delay and Trace Eyelid Conditioning.

Hunter E Halverson1, Andrei Khilkevich2, Michael D Mauk2,3

  • 1Center for Learning and Memory and hunter.halverson@utexas.edu.

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|July 18, 2018
PubMed
Summary
This summary is machine-generated.

Cerebellar cortex processing is similar for delay and trace eyelid conditioning. The parasagittal organization of the cerebellum, not the conditioning paradigm, dictates which neurons produce conditioned responses.

Keywords:
Purkinje cellcerebellumeyelid conditioningmodelingtetrode recordingstrace conditioning

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Area of Science:

  • Neuroscience
  • Behavioral Neuroscience
  • Cerebellar Function

Background:

  • Previous lesion studies suggest distinct cerebellar roles in delay and trace eyelid conditioning.
  • The cerebellar cortex is organized into parasagittal Purkinje cell stripes converging on deep nucleus neurons.
  • This organization implies shared Purkinje cell engagement for related tasks like delay and trace conditioning.

Purpose of the Study:

  • To test if delay and trace eyelid conditioning engage the same Purkinje cells (PCs).
  • To determine if the relationship between PC activity and behavioral responses is similar for both conditioning paradigms.
  • To investigate the influence of cerebellar organization versus conditioning complexity on neuronal engagement.

Main Methods:

  • Tetrode recordings from eyelid Purkinje cells (PCs) in rabbits.
  • Analysis of PC activity during delay and trace conditioned eyelid responses.
  • Modeling of PC firing rates to predict activity across training paradigms.

Main Results:

  • Replicated strong relationship between PC activity and conditioned eyelid response kinematics in delay conditioning.
  • Demonstrated the same PC-behavioral relationship during trace eyelid conditioning.
  • Showed stable relationships between PC activity and responses during transitions between delay and trace conditioning.
  • Developed a firing rate model that predicted PC activity equally well for both paradigms.

Conclusions:

  • Cerebellar cortex processing is fundamentally similar for delay and trace eyelid conditioning.
  • The parasagittal organization of the cerebellum, rather than the specific conditioning paradigm, determines neuronal engagement for conditioned responses.
  • Learning-related changes in specific Purkinje cell populations consistently control the timing and amplitude of cerebellar responses, irrespective of task input complexity.