The body tightly controls when and where proteins are made. Likewise once a protein has performed its function, it must be removed. Targeted proteolysis serves to reset the cell so that it can respond anew to stimuli that trigger growth and cell development. The Siah proteins are a family of proteins that control the turnover of other proteins. Siah proteins are remarkably highly conserved in evolution, and counterparts of the human proteins can be found in fruitflies, worms and plants. There ar ....The body tightly controls when and where proteins are made. Likewise once a protein has performed its function, it must be removed. Targeted proteolysis serves to reset the cell so that it can respond anew to stimuli that trigger growth and cell development. The Siah proteins are a family of proteins that control the turnover of other proteins. Siah proteins are remarkably highly conserved in evolution, and counterparts of the human proteins can be found in fruitflies, worms and plants. There are three different types of Siah protein in mice and this study investigates the function of the each protein by creating mice that lack one or more of these proteins. Our work to date has revealed that the Siah genes are involved in growth and fertility of mammals. The genes are also important for cell division, which implicates them in proliferative diseases such as cancer.Read moreRead less
The Role Of The NPY System In The Regulation Of Appetite And Satiety
Funder
National Health and Medical Research Council
Funding Amount
$1,088,384.00
Summary
Eating disorders that have a causative role in the development of obesity and anorexia present massive health care problems for which current preventive methods and therapies are unsatisfactory. The studies proposed here combine sophisticated molecular techniques with state-of-the-art biochemical and physiological analyses. By utilising a panel of unique mouse models (many of which are only available to us), missing or overproducing key factors in the regulation of appetite and satiety this rese ....Eating disorders that have a causative role in the development of obesity and anorexia present massive health care problems for which current preventive methods and therapies are unsatisfactory. The studies proposed here combine sophisticated molecular techniques with state-of-the-art biochemical and physiological analyses. By utilising a panel of unique mouse models (many of which are only available to us), missing or overproducing key factors in the regulation of appetite and satiety this research will make highly original and internationally competitive contributions to the understanding of these disorders. The results will have a significant impact on the development of novel diagnostics and potential treatments for obesity and anorexia. In addition, funding provided through this grant would not only help to find answers to these important questions but will also provide the basis for the generation of several novel mouse models. These animal models will also be beneficial tools for the wider scientific community here in Australia and worldwide. We have a proven record in the generation and comprehensive analysis of transgenic and knockout mice models making this proposal not only feasible but also highly likely to succeed and provide great new insight into extremely important health problems.Read moreRead less
Targeted Knockdown Of Human SOD1 Genes By Non-viral Gene Delivery To Delay Onset And Progression Of ALS
Funder
National Health and Medical Research Council
Funding Amount
$504,097.00
Summary
Amyotrophic lateral sclerosis (ALS) is an illness of nerves resulting in a creeping paralysis and death; there is no effective treatment. We have developed immunogenes consisting of an antibody to target specific nerves and a gene that can affect it. Our immunogene will deliver genes that inhibit a mutant protein causing disease in an ALS mouse model. Successful outcomes of this research will be to encourage development of treatments both before and after the disease has developed.