Elucidating Genetic Mechanisms Responsible For Familial Hyperaldosteronism Type II
Funder
National Health and Medical Research Council
Funding Amount
$424,812.00
Summary
Primary aldosteronism (PAL) is the commonest specifically treatable and potentially curable form of hypertension (high blood pressure), a common disease, expensive to treat, with serious morbidity and mortality. This project will use cutting edge technology to gain new knowledge concerning how genes regulate the body's production of aldosterone (salt hormone), which will help us understand how PAL develops and how common it is, and could lead to better approaches to diagnosis and treatment.
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.
PIPK2A, A Candidate Gene For Schizophrenia: Impact Of DNA Polymorphisms On Gene- And Protein Expression And -function
Funder
National Health and Medical Research Council
Funding Amount
$454,023.00
Summary
Schizophrenia is a devastating mental disorder with severe impact not only on the individual, but also on families and communities. Prevalence of the illness is worldwide about 0.5% for all populations. More than 200,000 Australians suffer from schizophrenia, costing the Australian community nearly $2 billion each year. The causes for schizophrenia are still unclear. There is now agreement that nature (genetic factors) and nurture (environmental influences) play a role in the development of the ....Schizophrenia is a devastating mental disorder with severe impact not only on the individual, but also on families and communities. Prevalence of the illness is worldwide about 0.5% for all populations. More than 200,000 Australians suffer from schizophrenia, costing the Australian community nearly $2 billion each year. The causes for schizophrenia are still unclear. There is now agreement that nature (genetic factors) and nurture (environmental influences) play a role in the development of the disorder. Evidence for genetic factors has been obtained and consistently confirmed by family-, twin-, and adoption studies. After many years of research, evidence for several genes, conferring susceptibility to schizophrenia, has been obtained by gene finding approaches applied to large family samples with multiple affected members. However, these genes have to be considered as candidates until more is known about their impact on brain function resulting in schizophrenic disorders. We have dissected a gene locus on chromosome 10p detected by linkage analysis by several groups including ourselves. We obtained statistical evidence for association of DNA sequence variants in the gene encoding the enzyme phosphatidyl-4-phosphate 5-kinase with schizophrenia. This enzyme is a critical component of the phosphoinositide pathways, which are involved in cell signalling. Our aim is to identify a possible dysfunction in the pathways. We will search for mutations involved in function or dysfunction of the enzyme. We will investigate gene- and protein expression and enzyme function in lymphoblast cell cultures and in post mortem brain tissue. Our ultimate goal is to characterise the possible impairment of intracellular cell signalling and thus identify molecular targets for development of novel and specific pharmacological treatments that have the potential to replace the currently available medication which is symptom-oriented and usually accompanied by severe adverse effects.Read moreRead less
Australian Centre For Vertebrate Mutation Detection (ACVMD)
Funder
National Health and Medical Research Council
Funding Amount
$1,611,794.00
Summary
Over the last 20 years, generation and analysis of genetically modified animals has proven to be an important step in the transition from in vitro studies of gene function to in vivo studies and eventually clinical research. The remarkable parallels between the human, mouse and zebrafish genomes means that there are now many examples of mutations that cause or modify disease in humans, and which lead to similar phenotypes when present in mice and zebrafish. Until recently, the prime method of in ....Over the last 20 years, generation and analysis of genetically modified animals has proven to be an important step in the transition from in vitro studies of gene function to in vivo studies and eventually clinical research. The remarkable parallels between the human, mouse and zebrafish genomes means that there are now many examples of mutations that cause or modify disease in humans, and which lead to similar phenotypes when present in mice and zebrafish. Until recently, the prime method of introducing mutations into specific genes of interest in the mouse (although still unavailable in the fish) was via homologous recombination, and the principal classes of mutations induced were large deletions or insertions. This type of mutation rarely occurs in humans. Rather, point mutations and single-nucleotide polymorphisms are the prevalent form of genetic variation. An alternative approach to the development of mouse models with the more relevant point mutations is TILLING (Targeting Induced Local Lesions IN Genomes). The goal of this Enabling Grant is to make TILLING technology accessible to the Australian research community and in doing so promote movement of research from the in vitro setting into animal models of disease.Read moreRead less
From Linkage To Genes Conferring Susceptibility To Schizophrenia: Investigation Of Candidate Genes On Chromosome 6p
Funder
National Health and Medical Research Council
Funding Amount
$462,250.00
Summary
Schizophrenia is a potentially disabling disorder with severe impact on the individual, the family and the community. The risk that a child born today will develop schizophrenia is about 1%. Genetic factors play a major predisposing role in schizophrenia, but environmental factors contribute as well. The molecular causes of schizophrenia are yet to be discovered, as knowledge about complex brain functions and their disorders is rapidly increasing. The identification and characterisation of genet ....Schizophrenia is a potentially disabling disorder with severe impact on the individual, the family and the community. The risk that a child born today will develop schizophrenia is about 1%. Genetic factors play a major predisposing role in schizophrenia, but environmental factors contribute as well. The molecular causes of schizophrenia are yet to be discovered, as knowledge about complex brain functions and their disorders is rapidly increasing. The identification and characterisation of genetic factors involved in brain function and dysfunction is likely to bring about novel insights into the neural and molecular mechanisms underlying schizophrenia. There is evidence, reported by several groups including our own, that genes, co-segregating with schizophrenia in families are located in a region on chromosome 6p. By fine-grain genetic dissection of this region, we and others have found that the gene coding for the protein dysbindin is associated with schizophrenia. Our aim is to identify the DNA variant(s) in the dysbindin gene, as well as variants in other candidate genes that may be located in chromosome 6p. We will use state-of-the art methods and information on genes and DNA variants, made available through the Human Genome Project. Once genetic variants are identified, we will analyse gene expression in post mortem brain tissue of persons with schizophrenia and study the distribution and function of the proteins coded by the identified genes. Our ultimate goal is to identify specific genetic factors involved in the brain dysfunction characterising schizophrenia. If successful, this should lead to clues about the causes of the disorder. In addition, the study will contribute to the development of methods for early diagnosis and prevention. Possibly, the most important outcome will be the identification of molecular targets for novel and more specific pharmacological treatments that may eventually replace current symptom-oriented antipsychotic medications.Read moreRead less
Kallikrein Gene Variants In Prostate Cancer: Analysis Of Gene Regulation And Diagnostic/Prognostic Use
Funder
National Health and Medical Research Council
Funding Amount
$486,801.00
Summary
Prostate cancer is the most common male cancer in Australia. However, early detection through screening programs has proven challenging, and about 30% of the 10,000 new cases diagnosed annually already have advanced disease. Hence, there is a fundamental need for increased basic research in prostate cancer etiology (cause) and tumour biology, and a critical requirement for methods that will assist in earlier detection of the disease and predict progression. A family of proteins called kallikrein ....Prostate cancer is the most common male cancer in Australia. However, early detection through screening programs has proven challenging, and about 30% of the 10,000 new cases diagnosed annually already have advanced disease. Hence, there is a fundamental need for increased basic research in prostate cancer etiology (cause) and tumour biology, and a critical requirement for methods that will assist in earlier detection of the disease and predict progression. A family of proteins called kallikreins (including prostate specific antigen, PSA) are often associated with clinical features of prostate cancer. We will characterise genetic variants (polymorphisms) in kallikrein genes that are consistently over-produced in prostate cancer, and determine whether they cause more protein to be produced in cells grown in the laboratory and in tumour tissue, and-or give rise to different expression products or splice variants. We will use bioinformatics (computer programs) to characterise published kallikrein gene sequences and to examine them for genetic variants that might be related to changes in gene expression or to splice variants. We will then use a case-control study, involving 1200 men with prostate cancer and 1200 healthy men, to determine whether these gene variants are associated with an increased risk of prostate cancer or with clinical aspects of the disease. Finally, we will examine the functional significance of the gene variants. This project represents an important and novel combination of molecular biology with the study of clinical disease at the population level, in the relatively new field of molecular epidemiology. It will clarify the role of kallikrein gene variants in prostate cancer risk and progression. The technologies may ultimately prove useful clinically for diagnosis of prostate cancer or for monitoring of treatment and prognosis, and hopefully will assist in clinical decision-making.Read moreRead less
Factors Contributing To Socioeconomic Gradients In Children's Oral Health Between 1993 And 2003
Funder
National Health and Medical Research Council
Funding Amount
$79,532.00
Summary
The NHMRC and the Australian National Oral Health Plan have identified health inequalities as a critical health issue. Dental caries in children increasingly has become concentrated in disadvantaged population groups. While previous studies have documented socioeconomic gradients in oral health, few have sought to explain the reasons underlying those inequalities. By taking advantage of two existing datasets of child oral health in Australia, collected in 1992 and 2002, we will be able to quanti ....The NHMRC and the Australian National Oral Health Plan have identified health inequalities as a critical health issue. Dental caries in children increasingly has become concentrated in disadvantaged population groups. While previous studies have documented socioeconomic gradients in oral health, few have sought to explain the reasons underlying those inequalities. By taking advantage of two existing datasets of child oral health in Australia, collected in 1992 and 2002, we will be able to quantify change in socioeconomic inequalities in oral health, and identify population-wide exposures to preventive practices and social circumstances that may have contributed to that change.Read moreRead less
Spatially Targeted Intervention For Eliminating Tuberculosis In High-burden Countries
Funder
National Health and Medical Research Council
Funding Amount
$645,205.00
Summary
The overall goal of my research program is to design and implement an innovative approach for eliminating TB in high-burden countries such as Ethiopia and China. My project will integrate contemporary and sophisticated analytical methods (geospatial methods, network meta-analysis and economic analysis) within a single translational research framework and provide evidence to make a substantial shift from the current paradigm of passive case detection.