DNA Methylation,Genetics, and Modifiable Risk Factors of Dementia in a Nationally Representative, Multi-Ethnic Cohort
Alzheimer's disease and its related dementias (ADRD) represent the leading terminal forms of dementia affecting a growing number of aging adults in the United States. Biomarkers of ADRD risk, particularly among susceptible populations (ADRD risk is disproportionately high among minorities, women, rural inhabitants, and people with lower education), represent a critical knowledge gap. Thus, studies with sufficient sample sizes, concurrently assessing multiple characteristics, such as educational attainment, environment, social, behavioral, lifestyle, geographic, biology, and epigenetics, will be uniquely positioned to effectively test factors or combinations of factors that create and sustain ADRD disparities. Our goal is to determine the joint epigenetic and environmental contributions to ADRD risk that underlie these health disparities. Using existing epigenetic and genetic data, well-characterized dementia phenotypes, and diverse risk factor data, we will analyze a population representative, multi-ethnic aging sample from the Health and Retirement Study (HRS). We aim to (1) test the associations between DNA methylation and dementia phenotypes (prevalent, 8-year incident), stratified by race/ethnicity and test for effect modification by ADRD disparity-related factors (educational attainment, sex, urban/rural); (2) identify associations between longitudinal measures of modifiable risk factors for ADRD and DNA methylation, stratified by race/ethnicity and test for effect modification or mediation by ADRD disparity-related factors; and finally, (3) identify genetic polymorphisms controlling DNA methylation and whether these are enriched in dementia outcomes to evaluate the role of DNA methylation in disease development. This study will likely impact the field of Alzheimer's research and contribute to public health because it will a) establish the relevance of DNA methylation on ADRD in multiple race/ethnicities; b) elucidate important biological epigenetic mechanisms; c) determine the combined and individual epigenetic-environment interplay contributions to ADRD; and d) consider the effects of sex, educational attainment, race/ethnicity, younger age groups, and urban/rural status in the same study where comparisons of relative contribution to risk can be made. Here, we have the opportunity to simultaneously and substantially improve our understanding of the genetic and environmental etiologic contributions to health disparities in ADRD.
National Institute on Aging
Funding Period: 5/15/2020 to 3/31/2025