PROJECT SUMMARY
Specific compositions of periodontal microbiota are associated with risk for the various forms of periodontitis. Serum
antibody levels are considered as surrogate markers for the activity levels of periodontal microbiota, which represent the
protein synthesis and inflammatory potential of the microbiota. The chronic trickling of periodontal microbiota into the
bloodstream also elicits a low-grade systemic inflammation which has been suggested to increase the risk for several
extra-oral diseases, such as atherosclerosis, rheumatoid arthritis, metabolic disorders, and neurodegenerative diseases,
including cognitive impairment and Alzheimer's disease. Furthermore, our recent study using data from the Third
National Health and Nutrition Examination Survey (NHANES III) indicated that specific compositions of periodontal
microbiota, even without inducing clinically significant periodontitis, may have a significant impact on the risk for human
disease and mortality, and that Porphyromonas gingivalis (P gingivalis) play a key role in the dysbiotic periodontal
microbiota. In this proposal, we will collaborate with experts from related disciplines to test our hypothesis that the
activity levels of specific periodontal microbiota/P gingivalis are associated with the occurrence of age-related macular
degeneration (AMD). We will first use partial least squares (PLS) regression to identify specific patterns of 21 serum
immunoglobulin G (IgG) levels for periodontal microbiota which are associated with the risk for AMD in a case-control
study from a representative sample of the US population, the NHANES III. PLS is an important statistical method in
bioinformatics and used to discover variables (i.e. specific patterns of IgG levels) that are not directly observed but are
rather inferred from other observed variables (i.e. 21 individual IgG levels). Since our hypothesis is novel and no previous
study in the topic has been done, it is possible that the observed associations between specific IgG patterns and AMD will
be confounded in spite of adjusting for confounding variables. To further verify the associations, we will use complement
factor H (CFH) genetic polymorphisms as an instrumental variable in our Mendelian randomization study. CFH genetic
polymorphisms are a well-established risk factor for AMD. The Mendelian randomization approach is a novel
epidemiologic study design that incorporates genetic information into traditional epidemiologic methods and addresses
exposure-outcome relationships without many of the typical biases that impact the validity of traditional epidemiologic
approaches. The Mendelian randomization approach is especially useful when a randomized trial is impossible. This
project will serve as our first step toward our long-term objectives of understanding how the phenotypes (such as
serological markers) and genotypes/strains (microbiome) of oral microbiota, together with the human genome and
nutrition and other known risk factors, affect eye health. Since periodontitis is one of the most prevalent diseases in
humans and AMD is the leading cause of blindness among elders, understanding the associations between periodontal
microbiota and AMD may lead to new therapeutic and preventative strategies for AMD.