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
Understanding How Virus Infection Accelerates Type 1 Diabetes Development
Funder
National Health and Medical Research Council
Funding Amount
$610,774.00
Summary
We linked rotavirus infection in children at-risk of type 1 diabetes with faster diabetes development. A heightened response to the virus is implicated by our mouse model studies. We will determine if more rapid mouse diabetes due to rotavirus requires this heightened response, and if this response is also made by cells from diabetes patients after stimulation with rotavirus or other relevant viruses. These studies are vital to learn how viruses affect type 1 diabetes and devise interventions.
I am a virologist carrying out research to determine the mechanisms underlying rotavirus cellular tropism and the pathogenesis of rotavirus disease. Rotavirus is the major cause of infantile gastroenteritis worldwide. I am combining the expertise of my group in rotavirus biology with the power of inter-disciplinary collaborations in the areas of sugar chemistry, cell biology, structural biology and diabetes to expand understanding in these areas. Novel treatments and improvements in rotavirus va ....I am a virologist carrying out research to determine the mechanisms underlying rotavirus cellular tropism and the pathogenesis of rotavirus disease. Rotavirus is the major cause of infantile gastroenteritis worldwide. I am combining the expertise of my group in rotavirus biology with the power of inter-disciplinary collaborations in the areas of sugar chemistry, cell biology, structural biology and diabetes to expand understanding in these areas. Novel treatments and improvements in rotavirus vaccines are the long term goal of our research.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
The Role Of MHC Class I Expression On Pancreatic Ductal Lineage Cells In The Pathogenesis Of Type I Diabetes (TID).
Funder
National Health and Medical Research Council
Funding Amount
$484,300.00
Summary
MHC molecules act as traffic lights to the immune system telling it whether to stop or go, so that only when there is an infection does the immune system receive the signal to destroy target cells. However, the immune system in Type 1 Diabetes patients receives signals to destroy the insulin-producing cells when there is no apparent infection. We aim to determine where the faulty traffic signal occurs and so be in a better position to design intervention strategies to prevent Type 1 Diabetes.
Elucidating The Pathogenic Role Of Rotavirus Infection In Type 1 Diabetes Development
Funder
National Health and Medical Research Council
Funding Amount
$535,579.00
Summary
Rotavirus infection is the main cause of severe diarrhoea in children, and has been implicated in accelerated progression of genetically at-risk children towards type 1 diabetes in two independent studies. My group has further discovered that rotavirus also accelerates diabetes onset in mice in a novel immunological process. In this project, we will determine the mechanism behind this disease exacerbation in the mice, to facilitate understanding of the process in children.
Viral Triggers Of Autoimmunity And Type 1 Diabetes: A Prospective Study Of At Risk Children
Funder
National Health and Medical Research Council
Funding Amount
$475,106.00
Summary
We are studying the role of viruses in causing type 1 (insulin dependent) diabetes. By following babies from birth, we can see whether early signs of damage to the body's insulin producing cells results from infection with particular viruses. We will study the genes and other features of these viruses to help us understand why they cause diabetes, and how they relate to other factors such as diet and vitamin D. The results may provide valuable information for the future prevention of diabetes.
Modulation Of Type 1 Diabetes Development By Rotavirus Infection
Funder
National Health and Medical Research Council
Funding Amount
$413,775.00
Summary
Rotavirus is the main cause of severe diarrhoea in children, and may contribute to progression to type 1 diabetes. We have now shown that rotavirus also modulates diabetes in mice, by a novel mechanism. In this project, the mechanism of this process will be elucidated and the capacity of human rotavirus to affect diabetes will be determined. This study will help determine the design of further human studies, and whether rotavirus vaccines also are possible modulators of diabetes development.
Ghrelins Novel Neuroprotective Effects In Parkinsons Disease Are Mediated By AMP-activated Protein Kinase (AMPK).
Funder
National Health and Medical Research Council
Funding Amount
$400,885.00
Summary
Studies show that body mass index, midlife adiposity and diabetes are associated with Parkinson's disease (PD). During obesity there is a dramatic change in nutritional information, such as hormones, sugars and fats, carried in the blood. This proposal explores how this altered nutritional information in obesity kills the brain cells associated with PD. It will examine how ghrelin, a metabolic hormone inversely related to obesity, influences and protects brain cell activity in models of PD.
Dissemination And Virulence Properties Of The She Pathogenicity Island Of Shigella Flexneri.
Funder
National Health and Medical Research Council
Funding Amount
$110,625.00
Summary
Bacterial species belonging to the genus Shigella are responsible for intestinal diseases ranging from mild diarrhoea to life threatening bacillary dysentery. Such diseases kill over a million people, mainly infants in developing countries, every year and lead to serious morbidity and mortality even in industrialised countries with well developed health care systems. In many cases the virulence of Shigella species is augmented by large fragments of DNA, called pathogenicity islands, that carry g ....Bacterial species belonging to the genus Shigella are responsible for intestinal diseases ranging from mild diarrhoea to life threatening bacillary dysentery. Such diseases kill over a million people, mainly infants in developing countries, every year and lead to serious morbidity and mortality even in industrialised countries with well developed health care systems. In many cases the virulence of Shigella species is augmented by large fragments of DNA, called pathogenicity islands, that carry genes which contribute to the development of disease (pathogenesis) in humans. Pathogenicity islands are important genetic elements which appear to spread independantly throughout bacterial populations and therefore contribute to the emergence of new virulence traits in bacteria. Recently, we identified two related pathogenicity islands carried by both Shigella flexneri and other species of the genus Shigella. The two pathogenicity islands belong to a unique class of genetic elements found in Shigella species and virulent strains of the intestinal bacterium E. coli. Our current study is aimed at (1) understanding the mechanisms by which one of these islands, the she pathogenicity island, spreads from one bacterial strain to another to introduce disease-producing or virulence genes to new bacteria and (2) to study how the sigA virulence gene, carried on the she pathogenicity island, contributes to disease development in humans. We know that sigA encodes a protein toxin which contributes to the loss of fluid from the intestines of rabbits that have been experimentally infected with Shigella flexneri. We propose to study the structure and function of the SigA protein to determine how it interacts with tissues to produce a pathological state. Such studies will enhance our understanding of the process of disease development and contribute to the investigation and assessment of new strategies for therapeutic intervention.Read moreRead less