Alzheimer's disease (AD) is the most common form of dementia with more than 5.5 million patients in the USA, a number that will quadruple by 2047. The disease can be characterized as an accelerated loss of cognitive functioning to such an extent that it interferes drastically with a person Aim 1. Using second generation high throughput sequencing to assess changes in chromatin modifications induced by nutritional signals and their role in the development and progression of cognitive performance and AD pathology.
Aim 2. To reveal genome-wide changes in LXR binding caused by HFD and thus to identify LXR targets whose transcriptional up- or down-regulation has a role in the development and progression of AD-like phenotype in model mice.

Public Health Relevance

This study will address questions that are important for continuing research in a field highly relevant to human health - Alzheimer's disease and changes in chromatin modifications induced by nutritional signals and their role in the development and progression of this disease. The result from this study will help us to understand the interplay between important genes and proteins involved in cholesterol transport in brain, and how the knowledge about disturbed function of those proteins can help in developing new therapeutic strategies for slowing AD progression.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Project (R01)
Project #
1R01AG037919-01A1
Application #
8105931
Study Section
Molecular Neurogenetics Study Section (MNG)
Program Officer
Petanceska, Suzana
Project Start
2012-09-01
Project End
2017-08-31
Budget Start
2012-09-01
Budget End
2013-08-31
Support Year
1
Fiscal Year
2012
Total Cost
$475,000
Indirect Cost
$120,198
Name
University of Pittsburgh
Department
Public Health & Prev Medicine
Type
Schools of Public Health
DUNS #
004514360
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213
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Nam, Kyong Nyon; Mounier, Anais; Fitz, Nicholas F et al. (2016) RXR controlled regulatory networks identified in mouse brain counteract deleterious effects of A? oligomers. Sci Rep 6:24048
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Lefterov, Iliya; Schug, Jonathan; Mounier, Anais et al. (2015) RNA-sequencing reveals transcriptional up-regulation of Trem2 in response to bexarotene treatment. Neurobiol Dis 82:132-140
Mounier, Anais; Georgiev, Danko; Nam, Kyong Nyon et al. (2015) Bexarotene-Activated Retinoid X Receptors Regulate Neuronal Differentiation and Dendritic Complexity. J Neurosci 35:11862-76

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