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Myeloma Plasma Cell Dormancy - 'Eradicating The Sleeping Giant'
Funder
National Health and Medical Research Council
Funding Amount
$834,428.00
Summary
Multiple myeloma is a fatal cancer that develops in the skeleton. Current therapies are initially effective, but patients develop resistance and the disease returns. This makes the search for drugs to overcome resistance a priority. Myeloma cells can hide in bone in a dormant state where they are insensitive to chemotherapy. We have identified new drug targets in dormant cells. We are investigating whether these new targets can be used eradicate myeloma cells and cure the disease.
Targeting PI3K-regulated Small Non-coding RNAs To Restore Cardiac Function
Funder
National Health and Medical Research Council
Funding Amount
$610,204.00
Summary
Heart failure affects approximately 2.4% of the adult population and over 11% of people over 80 years old. The majority of existing therapies slow, rather than reverse heart failure progression. The primary goal of this study is to determine whether regulating novel regulatory genes can enhance cardiac function in a setting of heart failure. Ultimately, technologies that target these genes may lead to innovative pharmacotherapies in the clinical management of heart failure.
How Do Bone-active Drugs Increase Patient Survival?
Funder
National Health and Medical Research Council
Funding Amount
$613,952.00
Summary
Bisphosphonates are a class of drugs used to prevent bone destruction in diseases such as osteoporosis. Evidence is emerging that these drugs also act on cells outside the skeleton to have additional beneficial effects, for example prolonging patient survival. This project will identify the cells affected and the mechanisms involved. With this knowledge, these drugs could be used more effectively and in different ways for the prevention or treatment of cancer and chronic human illnesses.
Defining Epigenetic Predictors Of Long-term Outcomes Of Preterm Birth
Funder
National Health and Medical Research Council
Funding Amount
$409,408.00
Summary
On average, those born premature do worse health-wise than those born at term. However, some do worse than others. Our aim is to identify these people at birth to better help doctors and parents to closely monitor their health. For this, we will be “reading the diary of pregnancy” in the molecules added to chromosomes in blood during pregnancy in young adults with will characterised states of health. We will analyse DNA from blood that we will extract from stored heel prick spots.
Bone Marrow Macrophages: “Resident Evil” In The Establishment And Progression Of Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$570,585.00
Summary
Multiple myeloma (MM) is a cancer that develops within the bone marrow (BM). To date, which cells of the BM stroma are required for the support of MM growth remains unknown. Our preliminary data suggest BM resident macrophages, expressing CD169 and CX3CR1, are essential for MM growth. Using innovative and elegant animal models of MM, we will define the role of these macrophages in MM growth and determine if macrophage-targeted therapies can delay MM growth in the relapsed disease setting.
Whole Body Vibration For Osteoporosis: Shaking Up Our Treatment Options
Funder
National Health and Medical Research Council
Funding Amount
$961,017.00
Summary
Our aim is to examine the ability of vibration alone and in combination with osteoporosis drugs to reduce hip fracture in postmenopausal women. In Australia, 1 in 2 women >60yrs, will sustain an osteoporotic fracture. Only drugs notably decrease fracture; however none are entirely effective and some patients don’t respond. Whole body vibration has emerged as a potentially effective therapy. A combination of vibration and drugs may enhance the effects of both and revolutionise treatment.
Why Is The Bone Marrow A “hot-spot” For Myeloma Plasma Cell Metastasis: Are There Gremlins In The System?
Funder
National Health and Medical Research Council
Funding Amount
$651,979.00
Summary
Most cancer patients die because their cancer spreads from a primary site to other tissues in the body. Once escaping the primary site, 70% of all tumours will spread to bone. This raises the question, why is bone a preferred destination for cancer cells? We provide evidence that Gremlin1, made by non-cancer cells within bone, is a key protein that supports cancer growth. This study will examine whether inhibiting Gremlin1 is a potential therapy to inhibit cancer spreading to bone.
Single-cell Optical Window Imaging In CDK1-FRET Biosensor Mice To Assess Tissue Stiffness And Optimise Delivery And Therapeutic Response To Gemcitabine/Abraxane In Pancreatic Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$676,979.00
Summary
Inefficient drug response in solid tumour tissue is commonly a limiting factor in the clinical effectiveness of cancer therapies. Using cutting-edge imaging technology and 3D models that mimic the disease, we have mapped areas of poor drug response within distinct regions of tumours. Here, we pinpoint and specifically target key factors limiting efficient drug targeting in order to improve the encouraging anti-cancer profile of the new drug combination Gemcitabine/Abraxane in pancreatic cancer.
Therapeutic Targeting Of Cell Cycle Checkpoint Aberrations In Pancreatic Cancer: Personalised Medicine In Action
Funder
National Health and Medical Research Council
Funding Amount
$634,354.00
Summary
Less than 5% of people with pancreatic cancer (PC) survive 5 years, and the odds of patients beating this disease have remained unchanged for 50 years. Consequently, there is an urgent need to develop novel treatment approaches for this highly aggressive cancer. Our study aims to define novel therapeutic strategies for PC utilising specific anti-proliferative therapies and a personalised “companion biomarker” directed strategy.