Cancer is the result of multiple genetic errors, involving both the overactivity of growth-stimulating oncogenes and the loss of tumour suppressor genes. The identification of the genes in both of these categories is important if we are to understand and intervene in the disease. Tumour suppressors are the more difficult to identify, precisely because they are lost in cancer cells. Normally the task is extremely time consuming, tedious and expensive. We have developed a system which will provide ....Cancer is the result of multiple genetic errors, involving both the overactivity of growth-stimulating oncogenes and the loss of tumour suppressor genes. The identification of the genes in both of these categories is important if we are to understand and intervene in the disease. Tumour suppressors are the more difficult to identify, precisely because they are lost in cancer cells. Normally the task is extremely time consuming, tedious and expensive. We have developed a system which will provide a short-cut to the cloning of one such gene. We have started with the mouse version, which is lost in leukemic cells. We have mapped the gene to within a very small chromosomal region, and we have identified a biological effect which correlates with loss of the gene. Our next step is to combine these two approaches to clone the gene. Because these genes are always highly conserved between species, we will be able to quickly clone the corresponding human gene, the loss of which is very likely to be important in cancer of various types.Read moreRead less
Identification Of Breast And Ovarian Tumour Suppressor Genes On Chromosome 22 By Functional Complementation
Funder
National Health and Medical Research Council
Funding Amount
$249,250.00
Summary
Cancer is fundamentally a genetic disease that arises when errors (mutations) accumulate in genes involved in regulating how and when cells grow. An important class of gene involved in this process are the tumour suppressors whose primary function is to inhibit cell growth. It is widely believed that significant improvements in the treatment and diagnosis of cancer will only be achievable once we have a detailed understanding of how these genes work. It is likely that dozens of tumour suppressor ....Cancer is fundamentally a genetic disease that arises when errors (mutations) accumulate in genes involved in regulating how and when cells grow. An important class of gene involved in this process are the tumour suppressors whose primary function is to inhibit cell growth. It is widely believed that significant improvements in the treatment and diagnosis of cancer will only be achievable once we have a detailed understanding of how these genes work. It is likely that dozens of tumour suppressor genes exist in the human genome and of these only a small proportion have been identified. The aim of this study is to identify genes on human chromosome 22 that are involved in the development of breast and ovarian cancer. Genetic evidence from many investigators, including data from our own laboratory, has indicated that multiple tumour suppressor genes are present on human chromosome 22 but as yet none have been positively identified. Part of the difficulty in identifying these genes is that cancer cells often have a lot of genetic damage and it is hard to distinguish the important changes from background genetic noise'. To circumvent this problem we are using a functional cloning approach which identifies tumour suppressor genes by their ability to inhibit the growth of cancers cells grown in culture in the laboratory. Genes that are identified in this way will be evaluated for the presence of genetic mutations in real human cancers which will give us a better idea of their true significance in tumour development. In addition to enhancing our understanding of the process tumour development this project may identify new targets for anti-cancer therapies.Read moreRead less
Molecular Analyses Of Flavivirus RNA Replication, Encapsidation, And Complementation
Funder
National Health and Medical Research Council
Funding Amount
$602,545.00
Summary
Flaviviruses are the agents of many mosquito-transmitted infections such as encephalitis and dengue. Hepatitis C virus is a member of the same virus family. Using Australian flavivirus Kunjin as a model and advanced techniques in molecular biology, biochemistry and electron micriscopy, the Flavivirus Research Unit at SASVRC has established itself as an international leader in the area of flavivirus RNA replication and ultrastructure of virus-infected cells. The objectives of this application are ....Flaviviruses are the agents of many mosquito-transmitted infections such as encephalitis and dengue. Hepatitis C virus is a member of the same virus family. Using Australian flavivirus Kunjin as a model and advanced techniques in molecular biology, biochemistry and electron micriscopy, the Flavivirus Research Unit at SASVRC has established itself as an international leader in the area of flavivirus RNA replication and ultrastructure of virus-infected cells. The objectives of this application are to advance further our understanding of how the flavivirus RNA replication complex is assembled, how it synthesizes RNA and how this RNA is specifically packaged to produce infectious virus. To achieve these goals we will employ state-of-the-art molecular biology techniques based on manipulations with infectious complementary DNA copy of Kunjin virus RNA. The intimate understanding of these mechanisms in flavivirus replication should facilitate the design of efficient antiviral drugs by specifically targeting unique events in RNA replication and-or packaging. This may assist in the development of antiviral drugs for treatment of infections caused by other higly pathogenic flaviviruses in Australia, such as dengue, Japanese encephalitis and Murray Valley encephalitis, as well as of the related heptitis C virus.Read moreRead less
Neurocognitive Studies Of Brain Plasticity Associated With Surgical Treatment Of Arteriovenous Malformations
Funder
National Health and Medical Research Council
Funding Amount
$701,922.00
Summary
We will use state-of-the-art brain imaging methods to test whether specific brain areas which have been chronically starved of adequate blood supply can regenerate, informing debate about limits on brain plasticity. Arteriovenous malformations (AVMs) are longstanding defects which can cause thinking skills to 'migrate' to other brain regions in childhood without noticeable impact. Surgical correction allows a test of what happens to the previously inactive area: Does the area 'start to think'?
Gastrointestinal Sensory Function In Normal And Diseased States
Funder
National Health and Medical Research Council
Funding Amount
$691,026.00
Summary
Chronic pain and discomfort from the digestive system is a major health care issue world-wide. There is currently no effective treatment for these problems, which often have no apparent organic cause. Lack of treatment is due to a lack of understanding about how sensations are transmitted from the digestive system to the brain. Our research group has unique and powerful techniques that allow us to probe the basic mechanisms of sensory function, and make rapid progress towards finding drugs that ....Chronic pain and discomfort from the digestive system is a major health care issue world-wide. There is currently no effective treatment for these problems, which often have no apparent organic cause. Lack of treatment is due to a lack of understanding about how sensations are transmitted from the digestive system to the brain. Our research group has unique and powerful techniques that allow us to probe the basic mechanisms of sensory function, and make rapid progress towards finding drugs that reduce specific types of sensory signals from the gut. We shall investigate sensory mechanisms in the upper and lower regions of the gut, where symptoms are most prevalent in diseases such as non-cardiac chest pain, functional dyspepsia and irritable bowel syndrome. Six aspects of sensory nerve endings in the gut are to be investigated: 1. The grouping of endings into functional classes (similar to touch or pressure receptors in skin) 2. How endings respond to chemicals and hormones found in the gut 3. How currently available drugs may be useful in reducing sensitivity 4. The mechanisms by which inflammation affects sensitivity 5. How nerve growth factors may trigger changes in sensitivity 6. How pores or channels in nerve endings determine their functionRead moreRead less
Functional Evaluation Of BRCA1 & BRCA2 Unclassified Sequence Variants And Identification Of Critical Pathogenic Domains.
Funder
National Health and Medical Research Council
Funding Amount
$331,312.00
Summary
The major genes that predispose to hereditary breast cancer are called BRCA1 and BRCA2. Most mutations in these genes cause the protein product to be truncated and inactive. However there are many families in which such truncating mutations are not found, but instead there are sequence changes that slightly alter the protein product. It is often difficult to predict whether these sequence variants are likely to cause hereditary breast cancer simply by looking at the position and nature of the se ....The major genes that predispose to hereditary breast cancer are called BRCA1 and BRCA2. Most mutations in these genes cause the protein product to be truncated and inactive. However there are many families in which such truncating mutations are not found, but instead there are sequence changes that slightly alter the protein product. It is often difficult to predict whether these sequence variants are likely to cause hereditary breast cancer simply by looking at the position and nature of the sequence change. Consequently, it is not possible to offer informative genetic counselling to these women or their at-risk family members. Assessment of the potential pathogenicity and functional significance of these unclassified sequence variants will be directly useful with regard to the clinical management of these women and their families, and will develop our current understanding of how different domains of these genes contribute to their role as cancer susceptibility genes.Read moreRead less
What Drives Abnormal Cerebral Activity In Secondary Generalised Epilepsy
Funder
National Health and Medical Research Council
Funding Amount
$565,809.00
Summary
Secondary Generalised epilepsy (2GE) is a severe, disabling epilepsy syndrome characterised by childhood onset frequent, treatment resistant seizures and developmental delay. Although one of the four major categories of epilepsy, it is poorly understood. This project uses combined EEG (brainwave testing) and MRI to reveal which brain areas are involved in the epileptic activity of 2GE. Advanced analysis techniques will explore which brain regions initiate 2GE epileptic activity.