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Active NON-SBIR/STTR RPGS NIH (US)

Synaptic Resilience to Tau in Alzheimer's Disease

$2.19M USD

Funder NATIONAL INSTITUTE ON AGING
Recipient Organization University of Alabama At Birmingham
Country United States
Start Date Jul 15, 2024
End Date Apr 30, 2026
Duration 654 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 10984162
Grant Description

Project Summary Approximately one-third of individuals without dementia at the time of death are found to harbor high levels of Alzheimer’s disease (AD) pathology, including amyloid-β plaques and neurofibrillary tangles, at autopsy. We hypothesize that such individuals exhibit physiological resilience that confers the ability to maintain cognitive

function despite the accumulation of AD-related pathologies. The identification of the specific mechanisms by which these older individuals with Alzheimer’s disease pathology avoid dementia is one of the most pivotal, unanswered questions in the field. Cognitive impairment in AD is the result of synapse loss in brain regions that

are critical for memory processes. Our work and that of others has demonstrated that synaptic markers and dendritic spine loss correlate more strongly with cognitive impairment in Alzheimer’s disease than accumulation of amyloid-β plaques and neurofibrillary tangles. This implies that the ability to maintain cognitive function in an

environment of AD pathology must be linked to the preservation and maintenance of synapses or spines. Aberrant tau accumulation is a strong pathological correlate of cognitive decline both in normal aging and Alzheimer’s disease. Abnormal tau initially accumulates in somatodendritic compartments among layer 2/3

neurons in the entorhinal cortex, and is thought to spread to anatomically connected regions via synaptic connections. These findings suggest that aberrantly phosphorylated tau seeds residing in synaptic compartments are crucial to the spread or propagation of tau pathology in aging and Alzheimer’s disease

patients. The extent of neurofibrillary tangle spread through the brain correlates with the severity of cognitive impairment, and thus, halting spread of tau pathology may represent a plausible mechanism of resilience to age- related memory loss or Alzheimer’s disease. This raises important questions: do resilient patients harbor less

pathogenic tau seeds in synaptic compartments or are their synapses more resilient to tau? What are the synaptic proteins and cellular pathways that associate with tau seeding and tau-induced synaptotoxicity in resilient patients? The goal of this R21 is to address these provocative questions to open new doors of

investigation by identifying putative therapeutic protein targets that are linked to modulating tau seeding, tau- induced synaptic dysfunction and synapse preservation in Alzheimer’s disease.

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University of Alabama At Birmingham

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