Reprogramming Human Fibroblasts Into Induced Trophoblast Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$889,064.00
Summary
We have been able to generate artificial human trophectoderm which is the tissue that creates the placenta. This will allow us to do research in how the genes control the fate of these cells without the need of human embryos or placenta. We anticipate that the derivation and characterising these cells will revolutionise placenta research, which in turn will contribute to the establishment of new therapies for placenta disease and infertility.
Crossing A Frontier In Cardiac Fibrosis: A Single-cell Multi-omics Approach To Understanding Fibroblast Agency In Models Of Heart Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,199,254.00
Summary
Cardiovascular disease is the most serious cause of mortality and morbidity in society, with one Australian dying every 13 mins. Our focus is on cardiac fibroblasts - changeable cells that regulate the mechanical integrity of the heart, and which are key therapeutic targets in heart disease. Single cell methods have revolutionised the study of complex tissues. Here we will apply molecular assays to thousands of single heart cells to build a new conceptual framework for fighting heart disease.
Over 2 million Australians have diabetes and up to one in three adults will develop diabetes or pre-diabetes in their lifetime with the associated burden of complications. It is not simply genetics, as the genetic variability cannot explain why some individuals and indeed some families appear to be programmed to have an inordinate burden of complications. Over the last decade we have developed state of the art technologies to characterise epigenetic changes in human clinical cohorts.