Genetic And Bioinformatic Analysis Of Complex Human Diseases
Funder
National Health and Medical Research Council
Funding Amount
$8,752,567.00
Summary
Some human diseases are common in families; examples include prostate cancer, blood cancers, epilepsy and diabetes. Therefore, close relatives of individuals with a disease have an increased risk of being affected by this disease, implying a genetic basis. Finding the cause of these diseases is difficult, we will be developing novel approaches to the identification of genes responsible for these diseases. This is the first step towards the development of treatments for affected individuals.
Many recent gene mapping efforts have focused on population based approaches instead of previously used family based approaches. One of the limiting factors with population based approaches is the cost of the technology - each participant must be evaluated (or genotyped) for hundreds of thousands of genetic markers. The cost can be reduced by using an approach which pools individuals together for genotyping, with statistical models used to deal with the problems that this creates.
Mapping Genes For Typical Migraine Using Twin Families.
Funder
National Health and Medical Research Council
Funding Amount
$439,124.00
Summary
Current evidence suggests multiple genes may underlie susceptibility to the more common forms of migraine. The project will look to see if the these genes provide clues to the further elucidation of the complex molecular pathways of migraine and will help in the development of diagnostic tests and evidence-based treatment strategies.
Glaucoma is the second leading cause of blindness in the world affecting approximately 70 million people. Glaucoma can occur at any age but the commonest type occurs in middle to old age. The disease has a genetic basis and can be inherited. As a result we have been studying the genetics of the disease in two large families from Tasmania. We hope to identify the genes involved in disease causation using a number of genetic techniques. Once mutations in a disease gene have been identified from af ....Glaucoma is the second leading cause of blindness in the world affecting approximately 70 million people. Glaucoma can occur at any age but the commonest type occurs in middle to old age. The disease has a genetic basis and can be inherited. As a result we have been studying the genetics of the disease in two large families from Tasmania. We hope to identify the genes involved in disease causation using a number of genetic techniques. Once mutations in a disease gene have been identified from affected individuals we will then be in a position to look for mutations in other family members and identify those individuals at risk of developing disease. Improvements in our understanding of how these genes are involved in disease causation will allow us to offer diagnostic testing to the wider community and develop better therapeutic interventions for treatment.Read moreRead less
I am a molecular geneticist with a main research focus in the identification and characterisation of genes and molecular pathways involved in intellectual disability and epilepsy.
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
Incorporating Genetic Information Into The Diagnosis And Treatment Of Cancers And Mental Health
Funder
National Health and Medical Research Council
Funding Amount
$123,502.00
Summary
Genetic information could improve diagnosis and selection of treatment for conditions such as cancer and psychosis. This aim of this research is to improve methods for using family history to diagnose patients, and to identify some of the genes involved in response to anti-cancer and anti-psychotic medications. This type of information can then be used to determine which drugs patients should be prescribed before starting treatment.
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
Identification Of A Genetic Defect Characterized By Radiosensitivity And Defective P53 Stabilization
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
Radiation is an important therapeutic agent for the treatment of a variety of cancers. However, radiation also causes cancers, certainly at high doses but it remains unclear as to the threat from low dose radiation eg in the vicinity of radiation accidents and at high altitudes. A greater understanding of the threats of radiation exposure is possible from the study of a number of rare syndromes characterized by extreme sensitivity to radiation and predisposition to develop cancer. The identifica ....Radiation is an important therapeutic agent for the treatment of a variety of cancers. However, radiation also causes cancers, certainly at high doses but it remains unclear as to the threat from low dose radiation eg in the vicinity of radiation accidents and at high altitudes. A greater understanding of the threats of radiation exposure is possible from the study of a number of rare syndromes characterized by extreme sensitivity to radiation and predisposition to develop cancer. The identification of new syndromes with radiosensitivity assists in delineating the overall response to radiation and the connection with cancer. This project is designed to identify the molecular basis of what appears to be a novel defect. It has some of the characteristics of a well described syndrome ataxia-telangiectasia (A-T), namely signs of neurodegeneration and sensitivity to radiation but the protein defective in A-T appears to have normal function in this case. A comprehensive investigation of a number of pathways of radiation signaling is planned to identify the nature of the defect.Read moreRead less
Fine Scale Mapping And Identification Of The IBD1 Gene On Chromsosome 16
Funder
National Health and Medical Research Council
Funding Amount
$483,849.00
Summary
One of the greatest challenges facing contemporary gastroenterology is to understand the causes of the inflammatory bowel diseases (IBD). Studies on the prevalence, incidence and cost of IBD indicate that these diseases have considerable impact in Australia. On average, patients lose more than 13 days from work each year, and in hospital, IBD in-patients accounted for 7% of total admissions and 10% of total bed days at an average cost of $2600 per admission. We estimate that there may be more th ....One of the greatest challenges facing contemporary gastroenterology is to understand the causes of the inflammatory bowel diseases (IBD). Studies on the prevalence, incidence and cost of IBD indicate that these diseases have considerable impact in Australia. On average, patients lose more than 13 days from work each year, and in hospital, IBD in-patients accounted for 7% of total admissions and 10% of total bed days at an average cost of $2600 per admission. We estimate that there may be more than 10,000 Australians who suffer from IBD. The existence of a genetic predisposition to IBD is now well established, and there is strong evidence that the disease is complex, resulting from the interaction of a number of different genes. To date, one genetic localisation on chromosome 16 has been established in several different populations, and we have confirmed the importance of this localisation in the Australian population. We will further refine the localisation by fine scale mapping in the pericentromeric region of chromosome 16 by identifying and studying the inheritance of novel markers in the region. We will then identify and characterise the gene itself using several complementary appoaches that rely on differences at the molecular level between disease and normal tissue. This work is part of the international effort to identify all IBD susceptibility genes. Once that is achieved, approaches to explaining the interactions between the genes, their protein products and environmental triggers can be determined. Only when the mechanisms of these interactions are understood will the expectation of rational therapies based on an understanding of disease aetiology be possible.Read moreRead less