Chemerin, A Novel Therapeutic Target For Modulation Of Adipose Tissue Mass
Funder
National Health and Medical Research Council
Funding Amount
$535,621.00
Summary
Obesity is a significant public health issue due to its increasing prevalence and association with other diseases including cardiovascular disease. Efforts to pharmacologically prevent and treat obesity are impaired by an incomplete understanding of the genes and metabolic processes involved. This project will use cell and animal models to examine the processes that occur during the expansion of fat tissue which will broaden our understanding of obesity and assist in identifying new therapies.
Action Of PKC Epsilon In Adipose Tissue Regulates Hepatic Glucose Production
Funder
National Health and Medical Research Council
Funding Amount
$906,859.00
Summary
Our previous studies implicated the enzyme protein kinase C epsilon (PKCe) in the development of fat-induced insulin resistance, a key aspect of Type 2 Diabetes. Contrary to expectations we have now shown that animals lacking PKCe only in fat are protected from whole body insulin resistance when fed a high-fat diet. This project will investigate the mechanisms through which PKCe in fat affects insulin action at other tissues, especially liver, to disrupt normal control of blood sugar levels.
Molecular Approaches To Cardiac Development, Disease And Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
Prof Harvey’s work explores the molecular and cellular networks that underpin heart development in the embryo and heart regeneration in the adult, and how these networks unravel in heart disease. Based on this knowledge, his work seeks to develop novel approaches for alleviating suffering in babies with congenital heart defects and adults enduring the devastating consequences of heart attack or heart failure.
Sugars in the real world: are cultured cancer cells a good model system for studying protein glycosylation? It is challenging to study errors in metabolism in human beings, so researchers use cells grown in the laboratory to understand disease processes. This project will determine if cultured cells accurately reflect the real changes to cell surface sugars that occur in all cancers, and the effect of these changes on the invasive properties of colon cancer cells.
Identifying A Novel Role For Pigment Epithelium-derived Factor In Obesity-related Metabolic Dysfunction
Funder
National Health and Medical Research Council
Funding Amount
$361,637.00
Summary
Obesity is an important factor contributing to insulin resistance and type 2 diabetes; however, the factors linking these disorders are not well defined. A protein called PEDF is elevated in obesity and type 2 diabetes. This project will examine how PEDF causes insulin resistance and whether blocking PEDF's actions prevents insulin resistance. Successful completion of this project may lead to therapeutics that reduce the risk of developing type 2 diabetes.
Enhancing fertility for the Thoroughbred and Standardbred industries. Enhancing fertility for the Thoroughbred and Standardbred industries. Responding to industry calls for improved methods of detecting and managing infertility in both stallions and mares, this project aims to provide a platform for competitive collaborations between universities, biotechnology companies and horse breeders: the end-users of technological developments in equine reproduction. The Thoroughbred and Standardbred bree ....Enhancing fertility for the Thoroughbred and Standardbred industries. Enhancing fertility for the Thoroughbred and Standardbred industries. Responding to industry calls for improved methods of detecting and managing infertility in both stallions and mares, this project aims to provide a platform for competitive collaborations between universities, biotechnology companies and horse breeders: the end-users of technological developments in equine reproduction. The Thoroughbred and Standardbred breeding industries contribute over $6.5 billion per annum to the Australian economy and employ thousands of staff across their value chains. However, these industries suffer from breeding program inefficiencies that amount to over $800 million in annual losses. Expected outcomes are novel reproductive technologies and specialised research capabilities that will make the Australian equine industry a global leader.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100004
Funder
Australian Research Council
Funding Amount
$540,000.00
Summary
An automated 3D electron microscopy facility. An automated 3D electron microscopy facility: The aim of this project is to establish the next generation of electron microscopy facility, with a fully automated tool enabling 3D imaging. The automated serial section system incorporated in a scanning electron microscope circumvents the limitation of transmission electron microscopy, which provides unique insights into molecular structures and cell components at high resolution, however, the area and ....An automated 3D electron microscopy facility. An automated 3D electron microscopy facility: The aim of this project is to establish the next generation of electron microscopy facility, with a fully automated tool enabling 3D imaging. The automated serial section system incorporated in a scanning electron microscope circumvents the limitation of transmission electron microscopy, which provides unique insights into molecular structures and cell components at high resolution, however, the area and volume are limited in size to a few microns. This new type of microscope can image whole organisms and be used by non-electron microscopists. It will be housed in an open access facility and will meet a growing demand for 3D electron microscopy.Read moreRead less
Discovery of novel myokines by innovative proteomic analyses. This project will utilise sophisticated techniques to identify novel proteins that are released from contracting skeletal muscle termed myokines. It is expected the project will identify numerous novel proteins that may enhance our understanding of human biology.