Thyroid hormones are regulators of development and metabolism. The lack of concordance of thyroid function and disease in identical twins suggests that environmental effects have a significant role. Quantifying epigenetic modifications, such as DNA methylation, has the potential to identify causal effects from the environment. This research will provide a comprehensive database of DNA methylome alterations that will contribute important insights into thyroid function in health and disease.
Identification Of Genetic Variants Regulating Thyroid Function In Health And Disease By Next Generation Sequencing
Funder
National Health and Medical Research Council
Funding Amount
$316,433.00
Summary
Small differences in thyroid function are associated with important clinical outcomes including longevity and cardiovascular disease. We recently completed a Genome Wide Association Study and identified a novel locus associated with blood levels of Thyroid Stimulating Hormone. In this project we will extend that research to study rare genetic variants and examine their association with thyroid function in health and disease.
Biomarkers For The Treatment And Prognosis Of Sight-threatening Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$598,305.00
Summary
Diabetic retinopathy (DR) is a highly specific vascular complication of both type 1 and type 2 diabetes, with prevalence strongly related to the duration of diabetes. Clinic biomarkers of DR have become the basis for preventive medicine. In this project, we aim to evaluate possible biomarkers in both Chinese and Australian diabetic populations at different stages of DR. We will also investigate pathological mechanisms and novel drugs to treat DR in animal models.
Thyroid-sympathoadrenal Regulation Of Human Brown Fat
Funder
National Health and Medical Research Council
Funding Amount
$447,141.00
Summary
This project aims to determine how hormones influence the growth and activity of brown fat in humans. Majority of fat cells in the body are white fat cells, which store fat, and cause obesity when in excess. Brown fat cells function like generators. They burn fat and release energy as heat. Humans with lots of brown fat are lean. What controls brown fat activity is currently unknown in humans. This project investigates how hormones influence brown fat activity and may shed light on the therapeut ....This project aims to determine how hormones influence the growth and activity of brown fat in humans. Majority of fat cells in the body are white fat cells, which store fat, and cause obesity when in excess. Brown fat cells function like generators. They burn fat and release energy as heat. Humans with lots of brown fat are lean. What controls brown fat activity is currently unknown in humans. This project investigates how hormones influence brown fat activity and may shed light on the therapeutic potential of brown fat in obesity treatment.Read moreRead less