Wade Regehr

Wade Regehr, Ph.D.

Bullard Professor of Neurobiology, Harvard Medical School
617-432-0435
Regehr Lab Website

Synaptic Plasticity and Cerebellar Function

The lab studies diverse topics ranging from the control of neurotransmitter release to the behavioral roles of the cerebellum.  Synaptic plasticity has been a long-standing interest of the lab. In recent years we have focused on the molecular control of release kinetics and short-term synaptic plasticity, and the functional and behavioral roles of these synaptic properties.  We also study the cerebellum.  It is increasingly apparent that the cerebellar circuit and behavioral roles of the cerebellum are much more complex than previously appreciated.  Our studies clarify circuitry, and provide insights into how the cerebellum controls various behaviors, and how cerebellar disfunction leads to neurological disorders such as autism.

Publications View
Presynaptic imaging of projection fibers by in vivo injection of dextran-conjugated calcium indicators.
Authors: Authors: Brenowitz SD, Regehr WG.
Cold Spring Harb Protoc
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Identification of an inhibitory circuit that regulates cerebellar Golgi cell activity.
Authors: Authors: Hull C, Regehr WG.
Neuron
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Calcium-dependent isoforms of protein kinase C mediate posttetanic potentiation at the calyx of Held.
Authors: Authors: Fioravante D, Chu Y, Myoga MH, Leitges M, Regehr WG.
Neuron
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Calcium microdomains near R-type calcium channels control the induction of presynaptic long-term potentiation at parallel fiber to purkinje cell synapses.
Authors: Authors: Myoga MH, Regehr WG.
J Neurosci
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Short-term forms of presynaptic plasticity.
Authors: Authors: Fioravante D, Regehr WG.
Curr Opin Neurobiol
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Presynaptic CB1 receptors regulate synaptic plasticity at cerebellar parallel fiber synapses.
Authors: Authors: Carey MR, Myoga MH, McDaniels KR, Marsicano G, Lutz B, Mackie K, Regehr WG.
J Neurophysiol
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Phosphatase activity controls the ups and downs of cerebellar learning.
Authors: Authors: Carey MR, Regehr WG.
Neuron
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Cholinergic activation of M2 receptors leads to context-dependent modulation of feedforward inhibition in the visual thalamus.
Authors: Authors: Antal M, Acuna-Goycolea C, Pressler RT, Blitz DM, Regehr WG.
PLoS Biol
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Identification of the synthetic pathway producing the endocannabinoid that mediates the bulk of retrograde signaling in the brain.
Authors: Authors: Best AR, Regehr WG.
Neuron
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Dynamics of fast and slow inhibition from cerebellar golgi cells allow flexible control of synaptic integration.
Authors: Authors: Crowley JJ, Fioravante D, Regehr WG.
Neuron
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