Neural circuits for regulating cerebellar learning

information.Due to the COVID-19 situation, all events at Duke are either canceled or moving to a virtual platform. This notice supersedes any announcements below.

Jason Christie; hosted by Court Hull

Learning is a highly regulated process in the brain. Such regulation ensures that the specificity for adaptive change is limited to behaviorally relevant contexts, as when movement is modified in response to motor errors. Therefore, neural circuits for learning are typically built with an embedded arrangement of diverse cell-types and connections that support computational flexibility, so that they become responsive for plasticity induction under exceptional circumstances but are otherwise impermeant to change. In the cerebellar cortex, the established framework explaining its function fails to account for how it rejects changes during unexceptional contexts yet maintains the latent ability to induce learning in response to motor errors. In this seminar, I'll highlight my lab's recent work examining the role of synaptic inhibition in regulating cerebellar plasticity induction and learning, discoveries that will help to fill in knowledge gaps regarding how it operates in health and disease.

Tuesday, November 12, 2019 - 12:00pm to 1:00pm

Bryan Research 103

Kornbluth, Jennifer