Dual Targeting Of Myc And Apoptosis Pathways For Improved Blood Cancer Treatment Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$754,685.00
Summary
Cancer cells frequently possess defects in genes called MYC and BCL-2 that control their growth and survival. Our preliminary studies have shown that combining novel reagents that specifically target MYC plus BCL-2 leads to enhanced lymphoma cell killing. In the proposed research, we will further develop these reagents and evaluate their ability to treat blood cancer in mice. We expect our approach will provide new avenues for treating cancer patients that respond poorly to current treatments.
While most leukemia patients initially respond well to chemotherapy, >60% die because the disease returns as a result of the survival of leukaemia cells following treatment. We have identified a new protein, osteopontin (OPN), that may allow the survival of leukaemia cells and therefore reduce the ability of chemotherapy to erradicate disease. We seek to examine the role of OPN in leukemia with a view toward developing targetted therapies in the future.
The Mechanism Of Cell Death In Response To Cytoplasmic DNA, And Its Role In Tumour Suppression
Funder
National Health and Medical Research Council
Funding Amount
$517,897.00
Summary
DNA in mammalian cells is in a structure known as the nucleus. Retroviruses such as HIV generate DNA outside the nucleus in the cytoplasm, and detection of DNA in the cytoplasm can lead to cell death, as a defence. All cells carry the remnants of ancient retroviruses in their nuclear DNA. These are normally inactive but may contribute to cancer when activated. This project investigates how normal cells die with cytoplasmic DNA, and whether a defect in this process promotes development of cancer.
Developing A New Treatment Method To Prevent Lymphopenia Associated With Sepsis
Funder
National Health and Medical Research Council
Funding Amount
$435,939.00
Summary
Sepsis or blood poisoning kills more people than breast cancer, prostate cancer and HIV/AIDS combined. It has a huge economic burden, yet there is no proper diagnostics markers or treatment. One of the main reasons for sepsis-mediated mortality is lack of functioning immune system patients. We have been able to elucidate the molecular mechanism of sepsis-mediated immune cell death and through this project, we aim to develop diagnostics and therapy for treating sepsis-mediated immune suppression.
Mechanisms Of Mcl-1- And Bcl-2-mediated Resistance To Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$439,796.00
Summary
Anti-cancer therapies that target either the mitochondrial or death receptor pathways of apoptotic cell death are being developed and in clinical trials. In certain cancer cells, the tBid protein links the two pathways, making the death receptor pathway dependent on the mitochondrial pathway. Our studies will test how tBid links the two pathways and how the link might be bypassed, potentially indicating means of improving the effectiveness of treating cancer by targeting death receptors (e.g. TR ....Anti-cancer therapies that target either the mitochondrial or death receptor pathways of apoptotic cell death are being developed and in clinical trials. In certain cancer cells, the tBid protein links the two pathways, making the death receptor pathway dependent on the mitochondrial pathway. Our studies will test how tBid links the two pathways and how the link might be bypassed, potentially indicating means of improving the effectiveness of treating cancer by targeting death receptors (e.g. TRAIL).Read moreRead less
Manipulating Oncogenic-signalling Pathways In The Genesis And Treatment Of Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$601,484.00
Summary
Melanoma is a major Australian health problem. It is the third most common cancer in men and women and has a disproportionately heavy impact on productive years of life. The use of small molecule inhibitors is the most promising strategy for treating melanoma. In this project, we will examine the mechanisms of resistance to this class of drugs and define new drug targets by examining the molecular-circuitry is damaged in melanomas. This work will greatly accelerate the development of new therapi ....Melanoma is a major Australian health problem. It is the third most common cancer in men and women and has a disproportionately heavy impact on productive years of life. The use of small molecule inhibitors is the most promising strategy for treating melanoma. In this project, we will examine the mechanisms of resistance to this class of drugs and define new drug targets by examining the molecular-circuitry is damaged in melanomas. This work will greatly accelerate the development of new therapies.Read moreRead less
Manipulating The B-RAF/MEK Pathway In The Genesis And Treatment Of Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$562,815.00
Summary
Melanoma is a major Australian health problem. It is the third most common cancer in men and women and has a disproportionately heavy impact on productive years of life. The use of small molecule inhibitors is the most promising strategy for treating melanoma. In this project, we will examine the mechanisms of resistance to this class of drugs and define new drug targets by examining the molecular-circuitry that is damaged in melanomas. This work will greatly accelerate the development of new th ....Melanoma is a major Australian health problem. It is the third most common cancer in men and women and has a disproportionately heavy impact on productive years of life. The use of small molecule inhibitors is the most promising strategy for treating melanoma. In this project, we will examine the mechanisms of resistance to this class of drugs and define new drug targets by examining the molecular-circuitry that is damaged in melanomas. This work will greatly accelerate the development of new therapies.Read moreRead less
The genetic regulation of organogenesis: endoderm development in the Drosophila embryo. Embryonic development is an important research field in biology, not only for its extraordinary complexity but also because of the insights it provides into molecular processes that underpin a variety of diseases. This project aims to discover genes and molecules that regulate the normal development of one of the most important organs, the gut.
Controlling The Pro-survival Protein Mcl-1: Discovering Novel Opportunities And Developing Innovative Approaches To Target Mcl-1 For Treating Cancers
Funder
National Health and Medical Research Council
Funding Amount
$749,415.00
Summary
Cancer cells are often sustained by evading cell death. Thus, a promising approach to develop new cancer treatments aims to restore their ability to commit cell suicide. Proteins related to Bcl-2 are, in this regard, attractive targets because they are prominent barriers to cell death. This project seeks to uncover how a Bcl-2 relative, Mcl-1, is regulated, and to explore how the mechanisms that underpin these processes can be targeted in cancers (melanomas, leukemias) that it sustains.
The Bcl-2 Life/death Switch - Why Do Some Bcl-2 Proteins Kill Cells Whilst Others Promote Their Survival?
Funder
National Health and Medical Research Council
Funding Amount
$375,510.00
Summary
The cells of all animals possess the ability to commit suicide. When this natural process of cell death is dysfunctional, diseases such as cancer arise. Our aim is to understand the molecular mechanisms that underlie this process by providing atomic resolution snapshots of key components of the cell death machinery. By understanding the fine details of cell death regulation we can develop new drugs that target and kill rogue cells such as those found in tumours.