Defining the molecular and cellular mechanisms of beta cell dysfunction. This project will investigate the influence of environment in the functional adaptation and maladaptation of pancreatic beta cells in diabetes. The research will define the molecular and cellular mechanisms linking environmental triggers such as obesity, high fatty acid levels and hyperglycaemia to beta cell dedifferentiation and dysfunction.
Special Research Initiatives - Grant ID: SR140100001
Funder
Australian Research Council
Funding Amount
$35,000,000.00
Summary
The Juvenile Diabetes Research Foundation Australian Type 1 Diabetes Research Network and Program. This Proposal continues the development of the initial Type 1 Diabetes Clinical Research Network (CRN), launched by JDRF in June 2011 with a $5m grant from the Australian Government.
The principal goal of the CRN is to positively impact the life of people with T1D in Australia through the support and promotion of clinical research. A further electoral commitment of $35m over 5 years will enable f ....The Juvenile Diabetes Research Foundation Australian Type 1 Diabetes Research Network and Program. This Proposal continues the development of the initial Type 1 Diabetes Clinical Research Network (CRN), launched by JDRF in June 2011 with a $5m grant from the Australian Government.
The principal goal of the CRN is to positively impact the life of people with T1D in Australia through the support and promotion of clinical research. A further electoral commitment of $35m over 5 years will enable further progress towards finding a cure for T1D, including delivering better and faster access to new therapies and treatments that can help prevent and manage the disease.
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Novel therapies to limit renal fibrosis in diverse models of renal disease. Kidney failure is a devastating health, social and financial outcome for the individual, their employer, family and the broader society, This project will carefully dissect mechanisms underpinning the scarring in the kidney that predisposes to kidney failure and will investigate novel therapies to prevent kidney damage.