Role Of Cyclin E2 In Hormone-responsive Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$328,194.00
Summary
The female hormone estrogen stimulates the growth of breast cancers by promoting cell reproduction. We have found that cyclin E2, which is part of the machinery that controls cell reproduction, responds to estrogen. Since abnormally high levels of cyclin E2 are linked with earlier relapse in breast cancer, we wish to understand what role it plays in estrogen action and in breast cancer, how its levels are controlled, and whether too much cyclin E2 interferes with drugs that block estrogen action
Investigation Of The Low Dose UV G2 Phase Checkpoint And Its Potential Exploitation In The Treatment Of Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$35,085.00
Summary
The research aims to indentify the role UV exposure contributes to the development of melanoma and if this knowledge can be used to develop new methods in the prevention and treatment of this disease
Resistant forms of childhood acute lymphoblastic leukaemia (ALL) constitute a leading cause of cancer-related deaths in children. Despite tremendous improvements in therapy, 25-30% of patients still experience a relapse and many of them occur in patients stratified as low risk. Further treatment is often toxic, frequently unsuccessful and carries the risk of significant long-term morbidity. For the design of more appropriate therapy, information on the biology of relapsed ALL is urgently require ....Resistant forms of childhood acute lymphoblastic leukaemia (ALL) constitute a leading cause of cancer-related deaths in children. Despite tremendous improvements in therapy, 25-30% of patients still experience a relapse and many of them occur in patients stratified as low risk. Further treatment is often toxic, frequently unsuccessful and carries the risk of significant long-term morbidity. For the design of more appropriate therapy, information on the biology of relapsed ALL is urgently required. The sequencing of the human genome and advanced screening technology (microarrays) allow the detailed analysis of expression patterns in large numbers of specimens. We propose to study the genetic features of this disease by investigating 28 childhood ALL patients from whom we have stored specimens received at two time points, one at diagnosis and one at relapse. The hypothesis of this study is that relapsed leukaemias display genetic features which are correlated to their resistance to therapy. The specific questions we will be asking are: (1) Which genes are expressed at high levels in leukaemia specimens at the time of relapse while not expressed (or expressed at lower levels) at the time of diagnosis and vice versa? (2) What is the function of differentially expressed genes? (3) Is the pattern of gene expression correlated with resistance to the particular drug therapy used? (4) Is the leukaemia clone at relapse related or unrelated to the clone present at diagnosis, as determined by receptor rearrangement? The expression levels of identified discriminator genes will be confirmed by real-time quantitative polymerase chain reaction (PCR). The quality of this set of specimens makes them particularly suited to achieve the stated goals, providing a unique opportunity to investigate drug resistance in childhood ALL. The data generated will provide the basis for the examination of genes suitable as new therapeutic targets.Read moreRead less
Identification Of Novel Targeted Therapies For JAK2-driven Leukemogenesis
Funder
National Health and Medical Research Council
Funding Amount
$392,717.00
Summary
Many leukemias are caused by particular signalling molecules becoming too active in blood cells. My research focusses on the molecules that are required by leukemic cells for their growth and survival. I will use mice that are prone to developing leukemia to study how these leukemias can be treated with drugs that block specific molecules. My goal is to discover new ways to treat leukemias that work better and have fewer side effects than current treatments.
Optimal Duration Of Neoadjuvant Androgen Deprivation Therapy In Localised Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$275,000.00
Summary
Each year approximately 8000 men in Australia and New Zealand develop prostate cancer which has not spread widely and which is amenable to attempted cure by surgery or radiation. Prostate cancer depends for its growth on the male hormone, testosterone, which circulates in the blood. As a result treatment which reduces testosterone level ('androgen deprivation' [AD] therapy) can produce shrinkage of prostate cancer. In fact AD has caused temporary but valued relief to millions of men with cancer ....Each year approximately 8000 men in Australia and New Zealand develop prostate cancer which has not spread widely and which is amenable to attempted cure by surgery or radiation. Prostate cancer depends for its growth on the male hormone, testosterone, which circulates in the blood. As a result treatment which reduces testosterone level ('androgen deprivation' [AD] therapy) can produce shrinkage of prostate cancer. In fact AD has caused temporary but valued relief to millions of men with cancer of the prostate that has spread throughout the body for the last five decades, worldwide. It remains uncertain however whether AD administered before surgery or radiation will benefit any of the 8000 men each year who develop localised cancer by shrinking the cancer first. In 1996 a trial involving 800 men across Australia and New Zealand commenced under the auspices of the Trans-Tasman Radiation Oncology Group (TROG) to answer the questions: 1 - Does either 3 or 6 months AD prior to radiotherapy reduce the chances of recurrence of the cancer after radiotherapy? 2 - Does such therapy reduce the volume of tissue requiring radiotherapy and hence the chances of long term side effects after radiotherapy? This grant will support collection of follow-up information from the trial and hence answers to the questions asked.Read moreRead less
The Role Of IQGAP1 In Human High-Grade Glioma And Its Regulation By MiR-124-A
Funder
National Health and Medical Research Council
Funding Amount
$69,137.00
Summary
Survival rates for many cancers are improving, however, for most patients diagnosed with a high grade glioma (HGG) there is limited long term survival. The treatments administered have limited effectiveness due to extensive infiltration of the tumour cells. New therapeutic strategies targeting the invading cell population to further reduce tumour spread are needed. Hence, a better understanding of the mechanisms promoting glioma migration and invasion are urgently required in this fatal disease.
Defining The Apoptotic And Therapeutic Activities Of Histone Deacetylase Inhibitors.
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
HDAC inhibitors (HDACi) are new chemotherapeutic drugs that kill tumors cells through a cell suicide process called apoptosis. We have now established a mouse model of human lymphoma whereby pro-apoptotic proteins have been eliminated or anti-apoptotic proteins overexpressed. We will identify the apoptotic proteins and pathways that are necessary for HDACi to kill cancer cells. Such information will lead to a more targeted or rational approach to chemotherapy using HDACi.
The mechanisms controlling cell growth are often disrupted in cancers. We have identified on such growth control mechanism. When normal body cells are treated with a particular family of drugs known as histone deacetylase inhibitors, they react by stopping proliferating, but will resume normal growth when the drug is removed. However, we have found that similarly treated tumour cells are killed by these drugs. The difference between the normal and tumour cells is the functionality of a particula ....The mechanisms controlling cell growth are often disrupted in cancers. We have identified on such growth control mechanism. When normal body cells are treated with a particular family of drugs known as histone deacetylase inhibitors, they react by stopping proliferating, but will resume normal growth when the drug is removed. However, we have found that similarly treated tumour cells are killed by these drugs. The difference between the normal and tumour cells is the functionality of a particular growth control. The identification of how this growth control mechanism operates in normal cells, and defining the defect in tumour cells has the potential to identify new targets for more specific and potent anti-cancer drugs. The increased specificity, i.e. destruction of only the tumour cells while have little or no effect on the surround normal body tissue, would be extremely beneficial as one of the drawbacks to conventional anti-cancer treatments is their unwanted normal tissue toxicities. This is cause of the many debilitating side effects associated with chemo and radiotherapy which can limit the clinical effectiveness of these treatments.Read moreRead less
Integrated Analysis And Functional Characterisation Of Gene Amplicons In Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$453,068.00
Summary
In Australia in 2001 there were ~1300 new cases of ovarian cancer. Survival of ovarian cancer is very poor and current treatments inadequate. To develop more effective treatments we need to understand the molecular events that cause ovarian cancer. Some genes have multiple copies in ovarian cancer cells and these may be good targets for therapy. We aim to find these genes and determine which ones have a functional effect in the tumour.