Investigation Of Pancreatic Insulin-secreting Cell Function And Survival
Funder
National Health and Medical Research Council
Funding Amount
$375,750.00
Summary
Diabetes remains a major health problem in Australia. Both type 1 and type 2 diabetes is eventually due to pancreatic insulin-producing beta-cell destruction, which is caused mainly by the cell death, so called 'apoptosis' or programmed suicide of the cells. Thus, attempting to protect beta-cells against death and rescue their insulin secretory function is emerging as a strategy for the treatment of diabetes. However, how the beta-cells undergo death and how to protect the cell death are still n ....Diabetes remains a major health problem in Australia. Both type 1 and type 2 diabetes is eventually due to pancreatic insulin-producing beta-cell destruction, which is caused mainly by the cell death, so called 'apoptosis' or programmed suicide of the cells. Thus, attempting to protect beta-cells against death and rescue their insulin secretory function is emerging as a strategy for the treatment of diabetes. However, how the beta-cells undergo death and how to protect the cell death are still not completely understood. We have recently discovered a new protein, named sphingosine kinase, that is a strong protector against cell death. We also found that this enzyme is involved in process of insulin secretion. Thus, this application seeks to establish a dual role of this enzyme in protecting beta-cells from death and promoting insulin secretion by the cells. This will ultimately allow us to create new therapeutic strategy to target this protein for the management of diabetes.Read moreRead less
Does Loss Of Melanocortin Glucose Sensing Contribute To Obesity Induced Diabetes?
Funder
National Health and Medical Research Council
Funding Amount
$617,531.00
Summary
Diabetes is a failure to properly regulate blood glucose levels. Escalating rates of diabetes are a major health problem. Melanocortin neurons in the brain detect blood sugar levels and usually regulate glucose production and utilization, but in obese animals they do not. We have developed a possible therapeutic, which appears to reverse the glucose insensitivity, and rapidly reduces blood glucose in diabetic mice. This project will determine how melanocortins act to regulate glucose levels
Bisphosphonate Therapy With Zoledronate Or Tenofovir Switching To Improve Low Bone Mineral Density In HIV-Infected Adults: A Strategic, Randomised Trial
Funder
National Health and Medical Research Council
Funding Amount
$716,300.00
Summary
Most HIV+ Australians receive tenofovir, a ‘preferred’ drug in all HIV treatment guidelines, and may do for decades, as HIV therapy is lifelong and because there are very few new HIV drugs. 40% of HIV+ adults have low bone density and HIV+ adults experience more fractures. Of all HIV drugs, tenofovir causes the most bone loss. This trial compares two approaches: a drug to improve bone density and switching tenofovir to another drug. This ‘treat versus switch’ approach is a world-first for HIV.