Colorectal Cancer Membrane Protein Interactomics [A Major Discriminator Of Clinical Outcome]
Funder
National Health and Medical Research Council
Funding Amount
$643,778.00
Summary
This project studies the molecular causes of colorectal cancer (CRC) malignancy because CRC is the 2nd most common malignancy by incidence and cause of death in the Western world. It currently results in 13.1% of Australian cancer deaths. The aim of this NHMRC project is to gain a detailed understanding of how particular cell membrane proteins interact with each to give cancer cells the ability to invade and spread.
Novel Targeting Of Therapy-resistant Prostate Cancer Cells.
Funder
National Health and Medical Research Council
Funding Amount
$596,978.00
Summary
Prostate cancer is treated by removing male hormones (androgens). Although the bulk of the tumour regresses, some cells remain and the cancer often grows back in an aggressive form. We will study new ways to eliminate therapy resistant cancer cells and thereby provide more lasting treatments for prostate cancer. Ultimately, we hope to inform the design of ground-breaking clinical trials that could re-shape the treatment paradigm of advanced prostate cancer.
Targeting Homeobox Genes In Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$658,739.00
Summary
Acute myeloid leukaemia (AML) is a common blood cancer with dire clinical prognosis due to a lack of targeted molecular therapies. In this proposal we will identify new ways of targeting transcription factor proteins that are overexpressed in AML and promote leukaemia by repressing normal cellular growth controls. This may lead to novel methods to target leukaemic stem cells to specifically eliminate myeloid leukemia
For 60 years, we have had only 3 effective cancer treatments: surgery, radiation and chemotherapy, often used in combination.The last 5 years have produced a powerful fourth treatment: the patient's own immune system.The long standing collaborations and synergies of our multi-disciplinary teams have already underpinned many recent advances in immune-based therapies: we are now poised to develop several further immunotherapies and on track to test them in patients during the term of this grant.
In melanoma we hypothesise there is a series of as yet unidentified gene fusions which provide oncogenic stimulatory signals that promote tumour growth and that these novel fusion products are excellent targets for the design of new therapies to treat melanoma. The aims of this study are to identify oncogenic fusions in melanoma, to assess which of these are recurrent, and to demonstrate that the resulting fusion proteins provide a selective growth and-or survival advantage to the tumour cell.
KLK4 Is A Master Regulator Of Tumour Microenvironment Remodelling In Prostate Cancer And Bone Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$596,305.00
Summary
The current biomarker for prostate cancer, PSA, belongs to a large family of related proteins called KLK enzymes. We have evidence that one of these enzymes, KLK4, regulates many different pathways involved in tumour spreading especially to bones. This project will determine the specific components involved with a view to finding better biomarkers of tumour spread and bone metastasis and designing better treatments for these aspects of the disease.
Strategies For Enhancing The Treatment Of Colon Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$590,785.00
Summary
Colorectal cancer is the third leading cause of cancer related death in Australia. Strategies to improve outcomes for these patients are urgently needed. This NHMRC SRF Fellowship will seek to identify new molecules in cancer cells which can be targeted to treat this disease, and to discover genes which can be used to improve patient response to treatment.
Cellular And Molecular Mechanisms Of Hedgehog Signaling In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$551,937.00
Summary
Breast cancer cells create the conditions for their own survival by communicating their needs to the healthy cells that surround them. We have previously shown that a molecule known as ‘hedgehog’ transmits biochemical signals between breast cancer cells and healthy cells. When hedgehog is ‘silenced’, tumours shrink and stop their spread. In this application, we will identify the cells receiving the hedgehog signal and identify how they support the growth and spread of breast cancers.
The critical role of the class III histone deacetylase SIRT2 in stabilizing N-Myc oncoprotein. Cancer is the commonest cause of death from disease in children. Neuroblastoma is the commonest solid tumor in early childhood. This project will investigate the critical roles of SIRT2 protein in increasing the expression of N-Myc oncoprotein and consequently inducing neuroblastoma, and SIRT2 inhibitors as anticancer agents.
Mitochondrially targeted anti-cancer drugs modulate the mitochondrial genome. Successful cancer management requires novel therapeutical approaches. This project will test the effect of a new class of compounds that target mitochondria, the powerhouse of the cells, where they suppress expression of mitochondrial genes. By this mechanism, cancers that are resistant to apoptosis induction can be inhibited.