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Active NON-SBIR/STTR RPGS NIH (US)

Cortical-hippocampal brain dynamics during sleep following spatial learning in rodents modeling Tau and AB aggregation feature of Alzheimer's disease

$4.29M USD

Funder NATIONAL INSTITUTE ON AGING
Recipient Organization Florida State University
Country United States
Start Date Feb 15, 2021
End Date Jan 31, 2026
Duration 1,811 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 10551309
Grant Description

PROJECT SUMMARY/ABSTRACT Alzheimer’s disease is devastating for individuals and society. Impaired learning and memory, particularly in the context of spatial navigation, is one of its early and major symptoms. Similarly, rodents recapitulating aspects of Alzheimer’s disease also exhibit early impairments in spatial navigation. A preponderance of evidence suggests

abnormal cortical-hippocampal communication in humans with Alzheimer’s disease. Hippocampal-cortical interactions during sleep are thought to be critical for consolidation of newly acquired memories. However, no studies have assessed these brain dynamics during sleep in rodents modeling Tau and amyloid beta (Aβ) aggregation aspects

of Alzheimer’s disease. Thus, the proposed research will explore the functionality of brain dynamics during sleep in the hippocampal-PC network in animal models of Tau and Aβ aggregation (TAβA). To do this, we will use a triple transgenic mouse where three major genes associated with familial Alzheimer’s disease are expressed

leading to TAβA. This mouse model mimics plaque and tangle pathological hallmarks of the disease, with a distribution pattern similar to human patients, including synaptic changes in the limbic system. In addition, all findings will be confirmed in a transgenic rat with Aβ accumulation, plaque formation, tau accumulation, cell loss,

and spatial memory impairments. Specifically, we will: 1) assess the relationship between spatial learning and memory, as well as brain dynamics during sleep, both within and across the hippocampus and cortex; 2) use a novel targeted optogenetic approach to functionally dissect the relative contributions of TAβA in the

hippocampus to impaired hippocampal-cortical coupling during sleep and impaired spatial learning. 3) test the efficacy of a non-invasive visual stimulation approach, known for clearing cortical TAβA, to relieve impaired hippocampal-cortical coupling during sleep and impaired spatial learning. This project will provide insight into

the normal function of a circuit that is dysfunctional in Alzheimer’s disease and allow us to probe dysfunction in this circuit that emerges in very early stages of disease progression in rodents modeling TAβA aspects of Alzheimer’s disease. This research will allow us to begin understanding changes in this network which may

underlie the emergence of cognitive impairments observed in Alzheimer’s disease and begin testing the efficacy of a non-invasive treatment for reversing the functional brain abnormalities and impaired cognition.

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Florida State University

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