Improving Anti-cancer Therapy By Stromal Targeting And Remodelling
Funder
National Health and Medical Research Council
Funding Amount
$673,742.00
Summary
We have developed a new drug which binds to abnormal cancer blood vessels. Upon binding, shape and tone of cancer vessels are restored and they become tighter. Our research will now test whether combining this new drug with current standard-of-care therapies such as chemo- and immunotherapy, will improve cytotoxic drugs and also make the immune system work better to fight the cancer. We also expect that tightening of blood vessels will stop cancer cells from spreading throughout the body.
Small Molecule Inhibitors To Reprogram The Tumour Environment And Improve Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$784,520.00
Summary
Cancer blood vessels are different to normal blood vessels; they help cancer cells to spread and stop immune cells in their tracks. We have identified drugs which help to make cancer blood vessels more normal and also bring immune cells into the cancer core. We will test these drugs in combination with immunotherapies, a new treatment option which has not reached its full potential in the clinic. Since our drug candidates are already in clinical use, we expect to fast track clinical development.
Deciphering Tumour Heterogeneity Of Breast Cancer Metastases Using Barcoded Patient Derived Xenografts
Funder
National Health and Medical Research Council
Funding Amount
$583,161.00
Summary
Breast cancer mortality is largely due to metastases that seed from the primary tumour. Breast tumours are known to contain a heterogeneous mix of cells, but the precise way that cells are selected for tumour growth and metastasis (as well as their response to systemic therapy) is not well understood. In this study we will use patient samples and cellular ‘barcoding’ to track the destiny of every single clone throughout disease progression and study the effect of various therapies on metastasis.
Circulating Tumour DNA As A Marker Of Complete Pathological Response And Long Term Outcome For Locally Advanced Rectal Cancer Treated With Pre-operative Chemoradiotherapy
Funder
National Health and Medical Research Council
Funding Amount
$613,183.00
Summary
Rectal cancers are often treated by chemoradiotherapy (CRT) followed by surgery which may result in long-term stoma. A significant proportion of these patients can achieve complete remission to CRT alone. This project will assess the accuracy of a promising blood marker (circulating tumour DNA) for predicting response to treatment in patients with rectal cancer undergoing CRT. If confirmed to be a reliable marker, this test could be used to select patients who may be able to avoid or delay surge ....Rectal cancers are often treated by chemoradiotherapy (CRT) followed by surgery which may result in long-term stoma. A significant proportion of these patients can achieve complete remission to CRT alone. This project will assess the accuracy of a promising blood marker (circulating tumour DNA) for predicting response to treatment in patients with rectal cancer undergoing CRT. If confirmed to be a reliable marker, this test could be used to select patients who may be able to avoid or delay surgery.Read moreRead less
Improving Outcomes For Women Diagnosed With Mucinous Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$598,238.00
Summary
Mucinous ovarian cancer (MOC) is different from other ovarian cancers but few studies have characterized the genetic changes specific to this subtype. It is often confused with metastases from other organs and does not respond well to standard ovarian cancer therapies. If MOC is more similar to mucinous cancers from other organs than other ovarian cancers, it may be better treated with chemotherapeutics that show success with other mucinous tumours.
Identification Of Genes Causing Medulloblastoma By Transposon Mutagenesis.
Funder
National Health and Medical Research Council
Funding Amount
$621,997.00
Summary
Brain tumours are the most common cause of cancer-related death in children and the tumour medulloblastoma is the most frequent. There is a need to develop new therapeutic approaches to treating medulloblastoma through the development of new drugs to directly target the tumour. This research has identified new genes that are good candidates as drug targets for treating medulloblastoma.