Novel Strategies For The Early Identification Provention And Treatment Of The Microvascular Complications Of Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$4,715,000.00
Summary
Despite recent advances, approximately one third of subjects with type 1 diabetes develop kidney disease and similar proportion develop vision-threatening eye disease. Indeed, in many instances eye and kidney disease occur in the same individual. The central aim of this proposed Special Program is the exploration of mechanisms that lead to the development and progression of these devastating complications of type 1 diabetes with a particular focus on novel strategies, directly applicable to man, ....Despite recent advances, approximately one third of subjects with type 1 diabetes develop kidney disease and similar proportion develop vision-threatening eye disease. Indeed, in many instances eye and kidney disease occur in the same individual. The central aim of this proposed Special Program is the exploration of mechanisms that lead to the development and progression of these devastating complications of type 1 diabetes with a particular focus on novel strategies, directly applicable to man, for their prevention and treatment. Participants in Special Program include both established diabetes researchers and investigators from other areas of academia (blood vessel biology and applied genetics). Strong interrelationships between the various investigators and their departments already exist and will be further consolidated with continued collaboration, sharing a combination of models, novel interventions and complex genetic techniques that would not be possible outside of a large collaborative framework. In addition to academic collaboration, interactions with industry-based drug discovery programs is also an important component in developing new treatment strategies for diabetic kidney and eye disease. The Special Program will thus consist of a range of studies of direct relevance to diabetic kidney and diabetic eye disease in humans. It is expected that these studies will lead to new strategies for the prevention, treatment and even the reversal of long term complications of diabetes.Read moreRead less
A National Resource For Mouse Models Of Mesothelioma
Funder
National Health and Medical Research Council
Funding Amount
$483,643.00
Summary
Mouse models of mesothelioma have led to a greater understanding of the disease and the identification of potential drug therapies some of these have now been translated into clinical trials. In the existing models, mesothelioma cells that have been grown in the laboratory are transplanted into animals by injecting the cells under the skin. Different cell lines with different properties are used in different experimental protocols. This application will fund the establishment of a central resour ....Mouse models of mesothelioma have led to a greater understanding of the disease and the identification of potential drug therapies some of these have now been translated into clinical trials. In the existing models, mesothelioma cells that have been grown in the laboratory are transplanted into animals by injecting the cells under the skin. Different cell lines with different properties are used in different experimental protocols. This application will fund the establishment of a central resource to maintain and distribute these cell lines. In addition, we describe a new transgenic mouse model in which mesotheliomas are rapidly induced in the peritoneal cavity after exposure to asbestos, recreating the natural tumour development much more accurately. These mice have been engineered to express the cancer causing protein of a monkey virus (SV40 large T antigen) in their mesothelial cells because it has been suggested that the virus has a role in the development of mesothelioma. This application also seeks funding to use the MexTAg mice to test the usefulness of different therapies for the prevention or treatment of mesothelioma. These animals give us the ability to investigate the disease in a more realistic environment than previous models. In parallel collaborative studies with other groups investigating different aspects of the biology of this cancer, we plan to analyze the earliest changes in the development of the disease and search for early markers using proteomics and gene expression studies. We anticipate that this model will generate information more directly relevant to understanding the human disease and will provide essential experimental data for clinical trials.Read moreRead less