Ovarian cancer is difficult to diagnose, patients present at a late stage of disease and it responds poorly to therapy. To improve treatment, it is crucial to gain new insights into ovarian cancer biology. We discovered a new protein, interferon epsilon, which is produced naturally by cells lining the female reproductive tract where it protects against infections and may even prevent development of cancers. We plan to characterise the action of IFNe on HGSOC and how best to use it for therapy.
Adoptive Cell Transfer Incorporating Vaccination (ACTIV) Therapy For Cancer
Funder
National Health and Medical Research Council
Funding Amount
$601,950.00
Summary
We have made a breakthrough in a new treatment for cancer that can destroy large tumours in mice. The treatment involves a transfusion of white blood cells and an injection of a vaccine. In this project, we will seek to understand how the treatment works, and apply it to human white blood cells in preparation for a clinical trial in cancer patients.
Generating Stronger And Smarter T Cells For Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$310,332.00
Summary
White blood cells from cancer patients can be modified in the laboratory to react against tumours. These cells can then be given back to the patient, which can sometimes cause cancer regression. However, often the white blood cells lack strength, or they lack the ability to distinguish between tumour and normal tissues of the body. In this project we seek to make stronger and smarter white blood cells that can deliver a lethal hit against tumours without damaging essential organs of the body.
Investigation Of Regulators That Control The Pro-survival Molecule MCL1 And Its Stabililty In Lymphoma And Myeloma Cells
Funder
National Health and Medical Research Council
Funding Amount
$169,162.00
Summary
B cell malignancies are common and in many cases result in mortality. The BCL-2 family protein MCL-1 has been shown to be over-expressed in many B cell malignancies. However, the regulation and biology of MCL-1 in these cancers remains largely unknown. We aim to define mechanisms that control regulation of MCL-1 expression in cancer cells at the transcriptional and protein level and hence identify new therapeutic targets.
My goal is to boost the immune system against cancer to develop new therapies. I aim to do this by genetically engineering the immune system and using drugs to help strengthen white blood cells of the immune system. Tumors can actively fight immunity by producing suppressive molecules. I am seeking to identify and understand these molecules in order to block them and help the immune system fight cancer. Using this knowledge, I aim to start new clinical trials for cancer.
Effective Immunotherapy For HPV Associated Cervical Cancer Precursor Lesions
Funder
National Health and Medical Research Council
Funding Amount
$482,640.00
Summary
Vaccines to prevent cervical cancer are currently being developed. These will be used to prevent infection with the causal virus, papillomavirus. However, there are very many people world wide who already have papillomavirus infection, which could turn into cancer at any point over the next 30 years. Therefore, there is a need for a vaccine that could be given along with the preventative vaccine, which would treat existing infections. This study addresses the characteristics of the immune respon ....Vaccines to prevent cervical cancer are currently being developed. These will be used to prevent infection with the causal virus, papillomavirus. However, there are very many people world wide who already have papillomavirus infection, which could turn into cancer at any point over the next 30 years. Therefore, there is a need for a vaccine that could be given along with the preventative vaccine, which would treat existing infections. This study addresses the characteristics of the immune response required to treat existing papillomavirus infections, since this is not currently known.Read moreRead less
I am an immunologist-virologist studying aspects of the interface between the innate and the adaptive immune systems with the aim of developing new interventions against disease.
We seek to understand how white blood cells detect and destroy disease, and how molecules of the immune system punch holes in diseased cells. We wish to learn how cancer can sometimes evade the immune system. Our work will also find out how some common treatments for cancer, like chemotherapy, can be used to boost the immune system and eliminate tumours. Through knowledge gained from these studies, we aim to develop new therapies that can help patients with devastating diseases like cancer.
Investigating The Dynamic Interactions Between Immune And Cancer Cells Using Two-photon Intravital Microscopy
Funder
National Health and Medical Research Council
Funding Amount
$401,361.00
Summary
Immune cells normally aid tumour destruction, but in some situations do the reverse and promote tumour spread. We will utilize cutting edge techniques including 2-photon microscopy together with novel transgenic mouse models to track immune cells in real time during tumour development in order to identify what factors determine a positive versus negative outcome. This will give us an unprecedented opportunity to ‘see’ how these cells interact with malignant cells which could lead to novel therap ....Immune cells normally aid tumour destruction, but in some situations do the reverse and promote tumour spread. We will utilize cutting edge techniques including 2-photon microscopy together with novel transgenic mouse models to track immune cells in real time during tumour development in order to identify what factors determine a positive versus negative outcome. This will give us an unprecedented opportunity to ‘see’ how these cells interact with malignant cells which could lead to novel therapeutic approaches.Read moreRead less