Assessment Of Calcium Signaling In Breast Cancer Cells Associated With Epithelial-mesenchymal Transition
Funder
National Health and Medical Research Council
Funding Amount
$116,762.00
Summary
This research will assess the role of specific proteins that control cell function in a process which is important in the spread of cancer cells throughout the body. The work is aimed at identifying new targets for drugs that may be used to prevent or stop the spread of breast cancer cells to other organs such as the brain and liver.
New CaMKII Therapeutic Targets In Heart Failure With Preserved Ejection Fraction
Funder
National Health and Medical Research Council
Funding Amount
$740,335.00
Summary
Deaths associated with impaired heart muscle relaxation and unstable cardiac cycle rhythm are increasing. The mechanisms by which these pathologies occur are not understood and clinical therapies are lacking. We have novel evidence to suggest that a key signalling protein, CaMKII, is critically involved in the development of these forms of heart pathology. This goal of this project is to identify how CaMKII is implicated in heart failure and dysrhythmia as a basis for designing new therapies.
Receptor Signalling Through Intracellular Calcium Stores In Chromaffin Cells
Funder
National Health and Medical Research Council
Funding Amount
$461,000.00
Summary
The function of cells in the body is controlled by many hormones and neurotransmitters acting on the cell's surface. Hormones and transmitters mediate their effects by producing chemical signals within the cell that regulate its activities. One key cell signalling chemical is calcium, especially in nerve cells which have developed sophisticated mechanisms for using calcium to control their function. Recently, new levels of complexity have been discovered, both in how cell calcium levels are modi ....The function of cells in the body is controlled by many hormones and neurotransmitters acting on the cell's surface. Hormones and transmitters mediate their effects by producing chemical signals within the cell that regulate its activities. One key cell signalling chemical is calcium, especially in nerve cells which have developed sophisticated mechanisms for using calcium to control their function. Recently, new levels of complexity have been discovered, both in how cell calcium levels are modified by hormones and transmitters and in how these complex calcium signals are used by cells to control their function. This project will investigate how hormones and transmitters can produce different types of calcium signals in nerve cells, and how these signals affect different aspects of the nerve cell's function. In particular, it will establish how two different types of specialised calcium stores within nerve cells are used by different classes of hormone and transmitter, and the distinct cellular functions these two calcium stores can regulate. The results will provide fundamental new information on how nerve cells control their activity and may help identify potential new targets for drugs.Read moreRead less
Identifying And Exploiting Novel Pharmacological Targets For Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
Breast cancers are made up of different types of cancer cells, and not all cells contribute equally. A subset of cancer cells may be uniquely capable of driving tumor growth, rebuilding fatal tumors after therapy and establishing new tumors at distant sites. Identifying and exploiting the pathways that regulate the activity and survival of these cells will lead to better modes of treatment, and move towards a relapse-free future for breast cancer patients.
Exploiting The Overexpression Of A Specific Calcium Permeable Ion Channel In Breast Cancer Cells: A New Pharmacological Approach To Targeting Breast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$577,717.00
Summary
We have identified that a specific protein that controls the entry of calcium into cells is found at much higher levels in some breast cancer cells. We have also identified that drugs that control the activity of this protein can promote the death of some breast cancer cells. This grant will help further define the mechanism of this effect and determine the applicability of this approach as a therapy for some women with breast cancer.
Calcium Signaling And Epithelial-mesenchymal Transition: A New Approach To Identifying Pharmacological Targets For Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$561,645.00
Summary
The largest killer of women with breast cancer is disease that has spread e.g. to brain, bones, lungs. Once breast cancer has spread in this way to secondary sites, also known as metastatic disease, then there is limited treatment available and generally therapy is palliative only. Our work describes experiments that will help us understand the process of metastasis and provide new avenues for drug discovery in metastatic disease, thus helping women who have a poor prognosis.
Transient Receptor Potential Calcium Channels In Breast Cancer Cell Proliferation, Apoptosis And Invasiveness
Funder
National Health and Medical Research Council
Funding Amount
$104,018.00
Summary
Calcium is a highly regulated signal used by cells to control processes such as growth and division, cell death and motility. Calcium channels let calcium into the cells, and specific calcium channel types are overexpressed in cancers, including those of the prostate and breast. In this research, we will assess the role of specific calcium permeable channels known as TRPs in breast cancer and the consequences of their inhibition on breast cancer cell growth and survival.
The Role Of Store-operated Calcium Entry In Neuronal Development
Funder
National Health and Medical Research Council
Funding Amount
$353,140.00
Summary
Defects in brain development can manifest in a range of disorders including autism and mental retardation. The highly complex, precise network that is our nervous system forms during development. Our work will determine the role of key proteins in guiding developing neurons. Understanding the function of such proteins will improve our ability to predict the outcome caused by mutations in these proteins, in the developing foetus.
Anthracyclines Disrupt Ca2+ Signalling In Cardiomyocytes: A Contribution To Cardiac Toxicity
Funder
National Health and Medical Research Council
Funding Amount
$525,620.00
Summary
Anthracyclines are one of the most effective drugs used in chemotherapy, but cause side effects resulting in serious heart problems which can be fatal. The link between anthracycline therapy and the problems they cause in the heart is not fully defined. We will investigate mechanisms leading to these side effects and define specific targets of anthracyclines in the heart. It is hoped this will lead to the design of new drugs which counteract the side effects of anthracycline treatment.
Neuron To Glia Signalling: Learning How Synaptic Signalling Can Promote CNS Remyelination
Funder
National Health and Medical Research Council
Funding Amount
$609,650.00
Summary
An immature cell type in the brain, known as the oligodendrocytes progenitor cell (OPC), receives direct electrical communication from neurons. This communication regulates the behavior of the OPC, affecting its ability to divide and generate new brain cells. This project will identify the signaling molecules that guide the OPC to for this specialized contact with the nerve cell. Understanding this communication has important implications for the treatment of Multiple Sclerosis.