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Amyloidosis associated proteins in Alzheimer’s disease pathogenesis

$2,290,100RF1FY2021AGNIH

University Of Florida, Gainesville FL

Investigators

Linked publications, trials & patents

Abstract

Summary Compelling data support a contemporary version of the amyloid cascade hypothesis (ACH) as a valid framework both for understanding AD pathogenesis and the development of disease modifying therapeutics. However, key aspects of the ACH are not well understood. One such aspect is the relationship between accumulation of aggregated A? and neurodegeneration. The mainstream concepts regarding this relationship are that aggregates of A? are directly neurotoxic and/or trigger a toxic glial response. However, numerous observations indicate that the link between A? accumulation and neurodegeneration may be more complex. As a working hypothesis and a non-exclusive mechanism to the direct A? aggregate ?toxin? model, we propose that a large number of biologically active proteins that we will refer to as amyloid associated proteins (AAPs) accumulate in the brain as A? deposits. Thus, A? aggregate accumulation may not be sufficiently toxic to induce downstream neurodegeneration unless accompanied by AAP accumulation. Indeed, in this scenario accumulation of AAPs helps to trigger the neurodegenerative phase of AD, accounting for the long delay between onset of A? deposition and neurodegeneration in humans. The proposed studies will leverage extensive data from the AMP-AD initiative and other published studies that has used state of the art proteomics to identify a large number of candidate AAPs that are increased both in AD and mouse models of A? deposition. Many of these candidate AAPs have known or inferred cell-signaling functions. Further, for some candidate AAPs there is either previous data demonstrating that they are associated with AD or we have generated novel data showing accumulation in senile plaques. Finally, as shown by others for the AAPs, ApoE and clusterin, we find that expression of select AAPs (midkine, pleiotrophin) modulates amyloid deposition. Building off this preliminary data, we propose three aims that are designed to probe our global hypothesis. In Aim 1 we will evaluate the spatiotemporal accumulation of AAPs in AD and in mouse models of amyloid deposition. In Aim 2 we will use rAAV- mediated expression of the AAPs in APP mouse models to a) further evaluate the association with amyloid plaques, b) determine if expression alters amyloid deposition and influences other AD relevant pathologies independent of effects on A?. In Aim 3 we intend to explore the mechanisms by which the AAP associates with the plaque and how that association might alter the biological properties of the AAP.

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