The Department of Neuroscience Welcomes Dr. Rebekah Evans.
Assistant Professor
PhD in Neuroscience, George Mason University
The canonical basal ganglia model predicts that the substantia nigra pars reticulata (SNr) and the globus pallidus externa (GPe) will have specific effects on locomotion: the SNr inhibiting locomotion and the GPe enhancing it. We use in vivo optogenetics to show that the GPe exerts non-canonical effects on locomotion through inhibition of the pedunculopontine nucleus (PPN). We also show that these structures mediate opposing effects on reward. To understand how these structures differentially modulate the PPN, we use ex vivo whole-cell recording with optogenetics to comprehensively dissect the SNr and GPe synaptic connections to regionally- and molecularly-defined populations of PPN neurons. The SNr inhibits all PPN subtypes, but most strongly inhibits caudal glutamatergic neurons. The GPe selectively inhibits caudal glutamatergic and GABAergic neurons, avoiding both cholinergic and rostral cells. This circuit characterization reveals non-canonical basal ganglia pathways for locomotion and valence.
Jenna Ward
(815) 529-6182
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