Cystic fibrosis is a life-threatening disease of the lungs and digestive system. It is the most common single gene disorder of Caucasian populations and most of the moratility is caused by the presence of chronic lung infections, most notably with the bacterial pathogen, Pseudomonas aeruginosa. Despite the cystic fibrosis gene being discovered over 10 years ago we still have no clear indication as to how defects in the CF gene cause susceptibility to bacterial infections, and result in the infla ....Cystic fibrosis is a life-threatening disease of the lungs and digestive system. It is the most common single gene disorder of Caucasian populations and most of the moratility is caused by the presence of chronic lung infections, most notably with the bacterial pathogen, Pseudomonas aeruginosa. Despite the cystic fibrosis gene being discovered over 10 years ago we still have no clear indication as to how defects in the CF gene cause susceptibility to bacterial infections, and result in the inflammation of the lung. Our studies address this issue by examining thechanges of gene expression in response to infection with Pseudomonas aeruginosa and therefore provide us with routes to therapies which are targetted against CF gene mediated inflammation.Read moreRead less
The Influence Of Alpha Actinins On Human Performance
Funder
National Health and Medical Research Council
Funding Amount
$542,500.00
Summary
There is a wide variation in skeletal muscle function in the general population. At one end of the spectrum are elite athletes who excel in a specialised area of sprint, power or endurance performance, while at the other end of the spectrum are individuals with muscle weakness due to inherited muscle disease. Part of this variation in human muscle performance is due to the genetic makeup of the individual. For example, world class sprinters have muscles which are genetically predisposed to gener ....There is a wide variation in skeletal muscle function in the general population. At one end of the spectrum are elite athletes who excel in a specialised area of sprint, power or endurance performance, while at the other end of the spectrum are individuals with muscle weakness due to inherited muscle disease. Part of this variation in human muscle performance is due to the genetic makeup of the individual. For example, world class sprinters have muscles which are genetically predisposed to generate maximal force at high speed. Similarly, the severity of muscle disease in an affected individual is influenced, in part, by other genes that affect normal muscle performance. The genes responsible for normal variations in muscle function in humans are unknown. The alpha-actinins are structural components of skeletal muscle. The two forms of alpha-actinin in skeletal muscle interact with a number of proteins involved in human muscle disease and thus likely contribute to the severity of muscle weakness in affected patients. Alpha-actinin-3 is present only in fast (type 2) fibres - the muscle fibres responsible for perfomance at high speed. We have identified a genetic change that results in absence of this protein in 1 in 5 people in the general population, without causing disease. We now have evidence that this genetic change, and hence whether or not muscle contains alpha-actinin-3, influences muscle performance in elite athletes. We will now use a variety of approaches to study the alpha-actinins in normal and diseased skeletal muscle. We will study the effect of changes (mutations) in the alpha-actinins in the muscle cells grown in the laboratory and in animal models. This work will impact on our understanding of how normal skeletal muscle functions, and the factors that influence human diversity in the general population.Read moreRead less
The Influence Of Alpha Actinins On Human Performance In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$480,989.00
Summary
We have identified a common genetic variation that results in absence of the fast muscle fibre protein, a-actinin-3, in over 1 billion people worldwide. Loss of a-actinin-3 influences elite athletic performance and skeletal muscle function in the general population by altering efficiency of muscle metabolism. We will now study mice and humans to determine how a-actinin-3 deficiency influences normal muscle function with age, response to exercise and the severity of human muscle disease.
A Genome-wide Association Study Of Endometrial Cancer
Funder
National Health and Medical Research Council
Funding Amount
$1,066,328.00
Summary
Endometrial cancer (uterine-womb cancer) is the most common invasive gynaecological cancer in Australia. Each year more than 1400 women are affected by the condition. The non-biased approach of our large study will identify genes that increase risk of this cancer, to provide information for future targeted therapies to prevent progression, and large-scale studies investigating how these genes interact with environmental factors such as hormone replacement therapy and obesity to cause disease.
I am a clinician-scientist and endocrinologist most interested in clinical problems associated with bone, in particular the highly heritable disease of osteoporosis. I hope by studying genetic determinants of bone mass to determine the key genes involved, with the long term aim of informing the development of novel therapies for this common, painful and disabling disease.
A Genome-wide Association Study In 2000 Glaucoma Cases With Matched Controls Using Equimoloar DNA Pools
Funder
National Health and Medical Research Council
Funding Amount
$610,267.00
Summary
Glaucoma is a common cause of loss of vision worldwide but we are unable to predict which people are at high risk of blindness. We aim to discover the genetic risk factors for glaucoma. We will use cutting edge genetic technology to assess the whole genome in thousands of patients with glaucoma. We hope to identify important new glaucoma genes, which could lead to the development of diagnostic tests and treatments which will provide the most cost-efficient ways to prevent glaucoma blindness.
Genetic Analysis Of Type 2 Diabetes In Indigenous Australian Pedigrees.
Funder
National Health and Medical Research Council
Funding Amount
$502,500.00
Summary
Type 2 diabetes is a major world health problem. With 300 million people expected to be affected worldwide by 2025 it is a major economic burden. It is a leading cause of kidney failure, blindness, heart attacks, strokes and amputations. Over 7% of the general Australian population have type 2 diabetes, whilst up to 30% of the population in some indigenous communities are affected by this condition. Very few Australians have not been touched in some way by the shadow of diabetes. The precise cau ....Type 2 diabetes is a major world health problem. With 300 million people expected to be affected worldwide by 2025 it is a major economic burden. It is a leading cause of kidney failure, blindness, heart attacks, strokes and amputations. Over 7% of the general Australian population have type 2 diabetes, whilst up to 30% of the population in some indigenous communities are affected by this condition. Very few Australians have not been touched in some way by the shadow of diabetes. The precise cause of diabetes is unknown, however we do know that it tends to run in families, indicating that inherited tendency is important. This research program will find genes which cause diabetes by searching for them in indigenous Australian pedigrees in which many of the family members are affected by diabetes. Finding the genes which cause diabetes will have significant impact in at least three major ways. Firstly, it will increase our understanding of the disease process. Secondly, it will be possible to develop tests to identify people at risk of diabetes at a very early stage so that therapy can be introduced and complications averted. Thirdly, it will be possible to develop new and more effective approaches for the prevention and treatment of type 2 diabetes.Read moreRead less
Identification And Characterisation Of The Genes And Pathways In Susceptibility To Inflammatory Bowel Disease
Funder
National Health and Medical Research Council
Funding Amount
$575,581.00
Summary
One of the greatest challenges facing contemporary genetics is to understand the genetics of complex diseases such as inflammatory bowel disease, mutiple sclerosis and schizophrenia. This application seeks to unravel the complex interactions between susceptibility genes and environmental triggers that work together to produce the inflammatory bowel diseases (IBD). Current estimates of the prevalence and incidence suggests that there may be 30-40,000 Australians who suffer from these chronic debi ....One of the greatest challenges facing contemporary genetics is to understand the genetics of complex diseases such as inflammatory bowel disease, mutiple sclerosis and schizophrenia. This application seeks to unravel the complex interactions between susceptibility genes and environmental triggers that work together to produce the inflammatory bowel diseases (IBD). Current estimates of the prevalence and incidence suggests that there may be 30-40,000 Australians who suffer from these chronic debiltating set of diseases known separately as Crohn's disease and ulcerative colitis. One susceptibility gene for Crohn's disease has been recently been identified and the project outlined will extend our knowledge not only to the susceptibility genes themselves, but also to the genes that interact with them to produce the disease via a cascade of immune and inflammatory events. This work is part of a large international effort to identify all IBD susceptibility genes and builds on the resources of the Australian IBD Familiy Register- an Australia wide register of families in which multiple members are affected by CD or UC. A traditional gene mapping approach is used in concert with mutiple analyses of different gene expression profiles in disease versus normal bowel tissues as well as in cell lines from patients versus controls. Validation studies include identification of the particular tissues and cell types that are involved in the pathological immune response typical of IBD as well as characterisation of specific patient genotypes and- or phenotypes that may correlate with expression profiles. Results obtained will be used to identify genes underlying IBD susceptibility, the mutations that drive the disease and eventually therapeutic targets for modulation and treatment of disease.Read moreRead less