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Circuit-Inspired Strategies to Improve Treatments for Parkinson’s Disease

EVENT: 
Weekly Seminar | Not Open to the Public
Who Should Attend: 
Researchers
Event Flyer: 
PDF icon gittis_10-29-24.pdf

Speakers

Professor
Biological Sciences and the Neuroscience Institute
Carnegie Mellon University

Abstract

Symptoms of neurological diseases emerge through the dysfunction of neural circuits whose diffuse and intertwined architectures pose serious challenges for delivering therapies. Deep brain stimulation (DBS) improves Parkinson’s disease symptoms acutely but does not differentiate between neuronal circuits, and its effects decay rapidly if stimulation is discontinued. Recent findings suggest that optogenetic manipulation of distinct neuronal subpopulations in the external globus pallidus (GPe) provides long-lasting therapeutic effects in dopamine-depleted (DD) mice. We used synaptic differences to excite parvalbumin-expressing GPe neurons and inhibit lim-homeobox-6–expressing GPe neurons simultaneously using brief bursts of electrical stimulation. In DD mice, circuit-inspired DBS provided long-lasting therapeutic benefits that far exceeded those induced by conventional DBS, extending several hours after stimulation. These results establish the feasibility of transforming knowledge of circuit architecture into translatable therapeutic approaches.Abstract Figure

Publications

A Aristieta, JE Parker, YE Gao, JE Rubin, AH Gittis
Dopamine depletion weakens direct pathway modulation of SNr neurons
Neurobiology of Disease
TA Spix, S Nanivadekar, N Toong, IM Kaplow, BR Isett, Y Goksen, ...
Population-specific neuromodulation prolongs therapeutic benefits of deep brain stimulation
Science 374 (6564), 201-206
Brian R Isett, Katrina P Nguyen, Jenna C Schwenk, Jeff R Yurek, Christen N Snyder, Maxime V Vounatsos, Kendra A Adegbesan, Ugne Ziausyte, Aryn H Gittis.
The indirect pathway of the basal ganglia promotes transient punishment but not motor suppression
Neuron

When

Tuesday, October 29, 2024 - 12:30pm

Where

Conference Room: 
Billings Building – Rosedale

More Information

Darlene White