Epilepsy is a serious condition having a massive impact on individuals and the community at large. Our understanding of the genetic causes of epilepsy is growing rapidly. We have created new animal models based on human mutations. We have shown that mutations can change the wiring of the brain during development so that the adult brain is more likely to become epileptic. Projects in this grant test if we can stop this developmental impact- allowing us to treat epilepsy before seizures occur.
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
Obesity is an every increasing problem worldwide, with major risks for the development of associated cardivasular and type II diabetes related disorders. This research project will determine the underlying mechanisms of how specific receptors in the brain control energy metabolism, appetite and body fat accumulation. It will also determine how peripheral factors can influence this process. The outcome of this research should identify new targets and approaches to prevent and treat obesity and th ....Obesity is an every increasing problem worldwide, with major risks for the development of associated cardivasular and type II diabetes related disorders. This research project will determine the underlying mechanisms of how specific receptors in the brain control energy metabolism, appetite and body fat accumulation. It will also determine how peripheral factors can influence this process. The outcome of this research should identify new targets and approaches to prevent and treat obesity and the associated, type 2 diabetes and cardiovascular disorders.Read moreRead less
Molecular Genetics Of The Host Response Defect In Cystic Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$564,690.00
Summary
Cystic fibrosis is the most common lethal genetic disease in Caucasian populations. Affected individuals suffer from a number of symptoms but the most serious is a chronic infect with the bacterial pathogen Pseudomonas aeruginosa. The sustained lung inflammation caused by infection with Pseudomonas aeruginosa ultimately destroys the structure of the lung to the point where it can no longer function. Gene therapy has been suggested as a possible treatment for the disease but another approach is t ....Cystic fibrosis is the most common lethal genetic disease in Caucasian populations. Affected individuals suffer from a number of symptoms but the most serious is a chronic infect with the bacterial pathogen Pseudomonas aeruginosa. The sustained lung inflammation caused by infection with Pseudomonas aeruginosa ultimately destroys the structure of the lung to the point where it can no longer function. Gene therapy has been suggested as a possible treatment for the disease but another approach is to identify the CF specific aspects of the inflammatory response and target those for therapeutic development. In our previous work we have identified several strong candidates for the inflammatory molecules in the CF lung and in this application we will test those candidates to see whether they play a major role in CF lung disease.Read moreRead less
Patched Gene Family Control Of Epidermal Development And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$521,961.00
Summary
The skin is the largest organ in the body and functions as a barrier against infection and dehydration. From a clinical perspective we need to know how to regenerate skin for better wound healing and the treatment of burns. We have identified a genetic pathway that regulates the stem cells of the skin and this research will show us the mechanism whereby the skin develops and regenerates, as well as the possible manipulations we can use to increase healing in the clinic.
Molecular Identification Of Causative Genetic And Epigenetic Alterations That Induce And Promote Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$381,821.00
Summary
The majority of mouse models currently employed to study colorectal cancer have two failings. The first is that they tend to focus on small intestinal cancers rather than colorectal cancers. It is important to note that small intestinal cancers are in the minority of gastrointestinal cancers in humans. The second problem is that the genetic lesions introduced into mice are mostly in all cells throughout development. This is a poor representation of the random nature of genetic changes that under ....The majority of mouse models currently employed to study colorectal cancer have two failings. The first is that they tend to focus on small intestinal cancers rather than colorectal cancers. It is important to note that small intestinal cancers are in the minority of gastrointestinal cancers in humans. The second problem is that the genetic lesions introduced into mice are mostly in all cells throughout development. This is a poor representation of the random nature of genetic changes that underpin the probable cause of colon cancer. We therefore propose to genetically engineer unique mouse models that focus on colon cancer to most closely replicate the situation in human disease. These models will then be available to others and us to develop and test therapies to prevent and-or treat colorectal cancer that will ultimately be used in patients.Read moreRead less
The Role Of Patched/Hedgehog Signalling In Common Human Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$495,750.00
Summary
Mutations in the patched -hedgehog pathway are responsible for most of the common skin cancer basal cell carcinoma and some of the brain tumour medulloblastoma. Despite this knowledge we still do not know which cell in the skin gives rise to the basal cell carcinoma, and which cell in the brain gives rise to medulloblastoma. This application describes an approach using animal models to answer these questions and therefore further our understanding of how a normal cell becomes a tumour cell. In a ....Mutations in the patched -hedgehog pathway are responsible for most of the common skin cancer basal cell carcinoma and some of the brain tumour medulloblastoma. Despite this knowledge we still do not know which cell in the skin gives rise to the basal cell carcinoma, and which cell in the brain gives rise to medulloblastoma. This application describes an approach using animal models to answer these questions and therefore further our understanding of how a normal cell becomes a tumour cell. In addition this proposal extends out current studies to examine new gene family members in large tumour collections.Read moreRead less
This study combines sophisticated molecular techniques with state-of-the-art biochemical and physiological analyses to determine how gut hormones regulate satiety. By utilising unique conditional and germline KO mice , this research will make highly original and internationally competitive contributions to the understanding of the regulation of satiety and energy expenditure. Knowledge as to the causes of lack of satiety will be of great benefit in the search for novel treatments for obesity.
Function Of The Flightless Protein In Wound Repair And Scar Formation In Skin
Funder
National Health and Medical Research Council
Funding Amount
$472,750.00
Summary
Scarring is the inevitable outcome of wound repair and can cover a spectrum of conditions, from normal fine lines to unsightly, restrictive and deforming scars. Each year in the world over 100 million patients acquire scars, primarily from surgical procedures. Many of these scars cause considerable problems. Over 4 million burn scars occur every year, 70% of them in children. Poor wound healing is a major clinical problem and can result in loss of movement and deformity. These are especially imp ....Scarring is the inevitable outcome of wound repair and can cover a spectrum of conditions, from normal fine lines to unsightly, restrictive and deforming scars. Each year in the world over 100 million patients acquire scars, primarily from surgical procedures. Many of these scars cause considerable problems. Over 4 million burn scars occur every year, 70% of them in children. Poor wound healing is a major clinical problem and can result in loss of movement and deformity. These are especially important considerations for children, where their growth places extra demands on healing wounds and grafts, necessitating regular surgical adjustment. Scarring is an area of largely unmet medical need and development of new treatment strategies would have significant impact on public health. Changes in cell adhesion, shape and movement are important processes in wound repair. A framework of filaments, much like guy-ropes that support a tent, help coordinate these events. Remodelling of these filaments, shortening or extending them and making new connections, allows cells to change shape and respond to stimuli. This is a crucial event in repairing wounds and the proteins that perform this are fundamentally important to wound repair. We have discovered a protein in skin, known as Flightless, that is involved in this filament remodelling process. The goal of this project is to determine what Flightless does in wound repair. By changing the amount of this protein and comparing its effect in non-scarring and scarring animal wound healing models we can gain insight into its role in wound healing and scar formation in humans. The development of new animal models in this research and the discovery of the role of Flightless in wound repair will provide exciting new opportunities to improve wound repair and reduce scarring, with significant impact on public health.Read moreRead less