Alzheimer's disease (AD) pathology is characterized by neurofibrillary tangles, astrocytosis, microgliosis, and extracellular deposits of ?-amyloid peptides (A?). The A? peptide (40-42 residues) is generated by the constitutive proteolytic processing of the amyloid precursor protein (APP). Many converging lines of evidence suggest that oligomerization and ultimately the deposition of A?42 is an early and critical event in the pathogenesis of AD. In the previous grant period, new strains of mice that express high levels of mutant APP were developed using approaches that utilize tetracycline-regulated vectors. Studies of these mice demonstrated that in an in vivo setting, amyloid deposits are very stable structures that persist long after new production of A? peptides is suppressed. Recently, however, focus has turned away from amyloid deposits as important mediators of cognitive impairment, focusing instead on more soluble oligomeric forms of the peptide. We have devised five Aims to investigate whether amyloid deposits may serve as reservoirs for oligomeric structures that have been implicated as the more potent mediators of cognitive impairment. This question is of major importance in considering therapeutic interventions that target A? production.
Aim 1 will use the tet- regulated transgenic mice to suppress A? production in an environment of high amyloid burden and then use established methods of assessing cognition with passive peripheral transfer of antibodies to A? as a means to determine whether diffusible A? oligomeric inhibitors of memory function persist along with deposited amyloid.
Aim 2 will use a different approach to address whether diffusible species of A? persist along with amyloid deposits;the approach uses transgenic mice expressing mutant APP as recipients of fetal neural grafts from non-transgenic animals. Previous studies have established that the graft environment is very receptive to amyloid deposition. The approach will be to use implant non-transgenic neural grafts in tet-regulated mice with amyloid deposits (and after suppression of new A? production) and then assess whether the grafts take up A? to form new deposits.
Aim 3 proposes to use viral vectors to transduce the grafted cells to express molecules that could be used to further define the nature of these diffusible forms of the peptide.
Aim 4 proposes experiments to ascertain the role of resident microglia in modulating amyloid formation. Using a strain of mice that naturally is deficient in microglia, we will examine the rate, distribution and character of amyloid deposition when crossed to mice that express mutant APP.
Aim 5 proposes to generate new lines of mice that express high levels of mouse A? peptides. Previous studies establish that mouse A? does not promote amyloid deposition;the planned studies will confirm whether this conception is true and examine whether mouse A? (whether in amyloid or not) is capable of influencing cognitive performance. Collectively, these studies address fundamental questions regarding the biology of amyloid deposition and the role of various forms of these A? oligomeric structures in amyloid deposition and cognitive impairment.

Public Health Relevance

Small protein fragments called amyloid beta peptides are crucial mediators of the pathology and symptoms Alzheimer's disease, which is a major cause of disability in the elderly and is currently largely untreatable. Crucial to the disease is the assembly of amyloid peptides into larger structures, which produce molecules that affect systems critical in memory and produce lesions in brain characteristic of the disease called amyloid plaques. The studies proposed in the present application address fundamentally important questions regarding the biology of amyloid peptide assembly into disease-specific structures and the role of such molecules in producing disease-associated symptoms.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS047225-06
Application #
7826570
Study Section
Cell Death in Neurodegeneration Study Section (CDIN)
Program Officer
Corriveau, Roderick A
Project Start
2004-01-01
Project End
2013-03-31
Budget Start
2010-04-01
Budget End
2011-03-31
Support Year
6
Fiscal Year
2010
Total Cost
$449,988
Indirect Cost
Name
University of Florida
Department
Neurosciences
Type
Schools of Medicine
DUNS #
969663814
City
Gainesville
State
FL
Country
United States
Zip Code
32611
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