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Striatal Control of Sensory-Driven Behavior and Its Relevance for Neuropsychiatric Disorders Sarah M Ferrigno
- Format:
- Book
- Thesis/Dissertation
- Author/Creator:
- Ferrigno, Sarah M., author.
- Language:
- English
- Subjects (All):
- 0317.
- 0384.
- 0621.
- Local Subjects:
- 0317.
- 0384.
- 0621.
- Physical Description:
- 1 electronic resource (105 pages)
- Contained In:
- Dissertations Abstracts International 87-07B
- Place of Publication:
- Ann Arbor : ProQuest Dissertations and Theses, 2025
- Language Note:
- English
- Summary:
- Inhibitory control, or the ability to withhold an action in different situations, is behaviorally essential for daily life. Disruptions to different aspects of this process are associated with a wide range of neuropsychiatric symptoms, including impulsivity and attentional deficits, making it critical to understand the underlying neural basis. In this study, we examined how the tail of the striatum (TS), a major sensory hub within the basal ganglia, regulates actions in response to sensory stimuli. Mice performed an auditory Go/NoGo task while we recorded cell-specific activity from TS neurons to identify how distinct striatal pathways contribute to sound-driven behavior. Both major striatal neuron types were active during reward-related target sounds, whereas non-target stimuli preferentially engaged neurons of the indirect pathway. Temporarily silencing these neurons increased errors to non-target stimuli, indicating a role for these cells in suppressing inappropriate action. In mice deficient for the synaptic adhesion molecule Neurexin1α, a gene linked to several neuropsychiatric disorders including autism spectrum disorder, attention-deficit/hyperactivity disorder, Tourette syndrome, and schizophrenia, cortical recruitment of indirect pathway neurons in the TS was reduced, and these mice exhibited auditory-specific inhibitory control deficits. Preliminary experiments further suggest that enhancing synaptic excitability onto these neurons may be sufficient to ameliorate this behavioral deficit. Altogether, these findings identify a subcortical circuit that supports sensory-driven inhibitory control and highlights the TS as a potential target for improving attentional and behavioral regulation in neuropsychiatric disorders
- Notes:
- Advisors: Fuccillo, Marc V. Committee members: Schmidt, Marc; Ding, Long; Geffen, Maria; Margolis, David
- Source: Dissertations Abstracts International, Volume: 87-07, Section: B.
- Ph.D. University of Pennsylvania 2025
- Vendor supplied data
- Local Notes:
- School code: 0175
- ISBN:
- 9798276001791
- Access Restriction:
- Restricted for use by site license
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