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Dysfunctional lipid metabolism in Alzheimer's Disease

$106,806ZIAFY2021AGNIH

National Institute On Aging

Investigators

Linked publications, trials & patents

Abstract

Alzheimer's Disease (AD) is a major source of suffering, disability and societal costs that currently lacks effective treatment options. Variants in lipid metabolism genes are among the strongest risk factors for late-onset AD. However, the specific mediators and mechanisms linking dysfunctional lipid metabolism to AD pathogenesis in humans remain to be identified. Our Unit seeks to fill this gap by systematically characterizing lipid-related abnormalities throughout the full spectrum of AD, with the long-term goal of identifying new therapeutic leads and new approaches for preventing or treating AD and related neurodegenerative diseases. Approach With these goals in mind, we are developing and applying advanced multiplex immunohistochemistry protocols to simultaneously label dozens cellular and molecular markers in rapidly collected and rapidly processed human medial temporal lobe specimens representing the full spectrum of AD-type pathology (from healthy aging to Mild Cognitive Impairment (MCI) to AD), in collaboration with D. Maric (Intramural NINDS). The spatial resolution and breadth of markers afforded by this approach are advancements over conventional approaches which typically provide either a much more limited set of markers, or lack the spatial resolution and context provided by concurrent labeling of cellular and architectural markers. Cellular and molecular markers included in this project can be classified into four general categories: (1) cellular and molecular architectural (non-pathological) markers; (2) classic AD-type pathological markers (i.e. amyloid oligomers and plaques, truncated and hyperphosphorylated tau); (3) emerging AD-type pathological markers (i.e. immune abnormalities, mitochondrial dysfunction, senescence); and (4) a broad range of markers to delineate lipid-related molecular pathways and derangements. Accomplishments We have made major progress in designing and implementing rigorous antibody validation protocols and completed a 60-plex (60 cellular and molecular markers) in 24 hippocampus and entorhinal cortex specimens (Control (n=8) vs. MCI (n=8) vs. AD (n=8)), including an expanded set of validated lipid metabolism and neurodegeneration markers. We completed RNA-protein codetection and multi-epitope protein labeling in additional subset of these specimens to assist in antibody validation. We also completed conventional single-marker IHC and western blot analyses to assist in antibody validation and marker quantitation. Findings from this helped form the basis for a unifying hypothesis underlying Alzheimer's disease. A manuscript containing these results has been submitted for peer review and is anticipated to be published in 2021. We are currently validating additional antibodies and are using this dataset to help develop sophisticated artificial intelligence approaches to analyze the images and data. Summary This project will provide high-quality, quantitative data and high-resolution images depicting lipid-related metabolic pathways and derangements throughout the spectrum of AD progression, in the context of CNS cytoarchitecture and more established AD-type pathologies. In addition, the construction and validation of CNS antibody panels and protocols used for this project will provide a plug-and-play template allowing for comprehensive assessment of CNS pathological markers that can be applied to other tissues and diseases in future projects.

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