Genomic Characterisation Of Asbestos Related Lung Cancer
Funder
National Health and Medical Research Council
Funding Amount
$88,099.00
Summary
Lung cancer causes more deaths in Australia than any other cancer. Smoking is the main cause, but people exposed to asbestos are also at risk, and it can be difficult to know whether a case is due to tobacco, asbestos or both. We will study lung cancer genes in people with asbestos exposure to find whether asbestos lung cancer has a specific pattern of abnormal genes (signature). If so, this could help people entitled to compensation, and also point to new treatments for asbestos lung cancer
Characterisation Of Candidate Colorectal Cancer Genes Identified By Microarray And SSH Analysis
Funder
National Health and Medical Research Council
Funding Amount
$417,750.00
Summary
Bowel cancer is one of the leading causes of cancer death in Australia today. If diagnosed early, surgery cures most patients. Unfortunately, symptoms often are not present until the cancer is advanced. In these cases surgery is still performed but sometimes all the cancer cannot be removed or it comes back after surgery. We need better ways to identify patients in whom the cancer is likely to return and better chemotherapy drugs to treat cancer not able to be removed surgically. Recently it has ....Bowel cancer is one of the leading causes of cancer death in Australia today. If diagnosed early, surgery cures most patients. Unfortunately, symptoms often are not present until the cancer is advanced. In these cases surgery is still performed but sometimes all the cancer cannot be removed or it comes back after surgery. We need better ways to identify patients in whom the cancer is likely to return and better chemotherapy drugs to treat cancer not able to be removed surgically. Recently it has been recognised that there are different subgroups of bowel cancer. One of these subgroups contains changes in the DNA called microsatellite instability, MSI-H for short. MSI-H cancers are less likely to come back after surgical removal and there is some evidence that they respond differently to chemotherapy. All cancers develop due to changes in their genetic material which make the cancer cells behave more aggressively than normal cells. We think that MSI-H bowel cancers have different changes in their genetic material compared to non-MSI-H bowel cancers. Understanding what these differences are would allow a better understanding of why bowel cancers do or do not come back after surgery. It would also allow chemotherapy treatments to be individualised according to genetic changes in the cancer. We have already used DNA chip technology to identify a large number of genetic differences between MSI-H and non-MSI-H bowel cancers. In this project we want to examine the most important of these in more detail. We will replicate these changes in cells cultured in the laboratory to see if the changes really do affect the behaviour of cancer cells. We will then look for what kind of genetic damage has led to the change. For key genetic changes, we will then examine our large tumour bank of bowel cancers collected with patients' consent over many years. We will look to see if the genetic changes really do predict the cancers' behaviour and response to treatment.Read moreRead less
Investigation Of The Anticancer Action And Cytotoxic-synergism Of Matrix Metalloproteinase Inhibition.
Funder
National Health and Medical Research Council
Funding Amount
$272,036.00
Summary
In virtually all cases, death from solid tumors (including breast cancer) results from invasion and metastasis. The exciting recent pre-clinical observations that a new class of anticancer agents (which primarily target tumour invasion and metastasis) operate synergistically with a number of standard chemotherapy cytotoxics (such as those already used to treat breast cancer) suggests a new and significant additional therapeutic potential for both agents. The basis of this synergism is completely ....In virtually all cases, death from solid tumors (including breast cancer) results from invasion and metastasis. The exciting recent pre-clinical observations that a new class of anticancer agents (which primarily target tumour invasion and metastasis) operate synergistically with a number of standard chemotherapy cytotoxics (such as those already used to treat breast cancer) suggests a new and significant additional therapeutic potential for both agents. The basis of this synergism is completely unknown however, and it is our contention that this mechanism needs to be explored at the molecular level in order to identify which combinations will have most potential in the clinic. This proposal aims to characterize synergistic combinations in an animal model of breast cancer progression, and to determine the specific molecular mechanism of the process. Each phase of the proposed study is a worthwhile undertaking in itself, and while it makes primary use of a breast cancer growth and metastasis system, the information revealed should be relevant to many tumour types. This information can be used to formulate new therapeutic strategies for the treatment of solid tumours and their metastasis in patients.Read moreRead less
The properties of Vegf-B suggest that it may play a role in new blood vessel formation (angiogenesis) especially during the development of the heart. Mice with the Vegf-b gene deleted are viable and fertile but display cardiac dysfunction as the animals age and in experimental conditions of ischemia. Comparison of total gene expression in the hearts of mice lacking Vegf-B with those of normal mice will identify genes involved in blood vessel formation during cardiac development and maintenance. ....The properties of Vegf-B suggest that it may play a role in new blood vessel formation (angiogenesis) especially during the development of the heart. Mice with the Vegf-b gene deleted are viable and fertile but display cardiac dysfunction as the animals age and in experimental conditions of ischemia. Comparison of total gene expression in the hearts of mice lacking Vegf-B with those of normal mice will identify genes involved in blood vessel formation during cardiac development and maintenance. The genes identified will be targets for designing potential new drugs and therapies for cardiovascular disease.Read moreRead less
Radiotherapy (RT) is a curative anti-cancer treatment employed in around half of all cancer sufferers. Very occasionally, a cancer patient will manifest an unexpected adverse reaction to RT and there is strong evidence for a genetic basis to such RT sensitivity. Despite two decades of research, such reactions cannot currently be predicted prior to treatment and their occurrence limits the intensity, and hence cure rates, of RT for the majority of patients. This project will employ cutting edge t ....Radiotherapy (RT) is a curative anti-cancer treatment employed in around half of all cancer sufferers. Very occasionally, a cancer patient will manifest an unexpected adverse reaction to RT and there is strong evidence for a genetic basis to such RT sensitivity. Despite two decades of research, such reactions cannot currently be predicted prior to treatment and their occurrence limits the intensity, and hence cure rates, of RT for the majority of patients. This project will employ cutting edge technology (DNA Chips, or microarrays) to attempt to understand why some patients suffer significant RT side-effects, while the vast majority do not. We have developed a tissue bank of samples from cancer patients who have had adverse RT reactions, and these samples (and samples from unaffected cancer patients) will be examined by microarrays: the activity of thousands of genes will be evaluated in each experiment, and we shall search for patterns of gene activity which track with RT sensitivity. Should we determine a pattern, this pattern will be checked against a larger number of cases and if it accurately predicts RT sensitivity, could lead to the routine testing of cancer patients prior to RT and the individualisation of cancer therapy. In parallel, we will evaluate the tissues of sensitive patients with assays capable of detecting abnormalities in the response to radiation, which may give clues as to an underlying gene fault(s) which might predispose to radiosensitivity in that individual.Read moreRead less
Profiling Global Inflammatory Signatures For GPCRs In Human Macrophages
Funder
National Health and Medical Research Council
Funding Amount
$687,770.00
Summary
Macrophages are important white blood cells of the immune system. They trigger inflammatory responses to infection or injury, but prolonged inflammatory responses can lead to chronic diseases. In this project we aim to better understand how macrophages sense the outside environment, how external signals trigger inflammatory processes, how this leads to diseases such as autoimmune and inflammatory diseases, cancer and cardiovascular diseases, and how to control them with drugs.
MicroRNA Expression Profiling Of Eutopic Endometrium In Women With Versus Without Endometriosis
Funder
National Health and Medical Research Council
Funding Amount
$224,211.00
Summary
Endometriosis is a medical condition where endometrium grows outside the womb. About 10% of women have this condition that can cause abdominal pain, painful periods and difficulty conceiving a child. Now endometriosis can only be diagnosed by surgical procedure. We believe that the presence of endometriosis causes particular small molecules called microRNAs to be present in the lining of the womb or in the blood only in women with endometriosis, and we could develop a test for endometriosis with ....Endometriosis is a medical condition where endometrium grows outside the womb. About 10% of women have this condition that can cause abdominal pain, painful periods and difficulty conceiving a child. Now endometriosis can only be diagnosed by surgical procedure. We believe that the presence of endometriosis causes particular small molecules called microRNAs to be present in the lining of the womb or in the blood only in women with endometriosis, and we could develop a test for endometriosis without resorting to surgery.Read moreRead less