Targeting Adenosine Mediated Immunosuppression To Enhance CAR T Cell Activity
Funder
National Health and Medical Research Council
Funding Amount
$633,447.00
Summary
The use of white blood cells genetically engineered to eradicate cancer cells specifically has been a major breakthrough in cancer treatment. These cells (CAR T cells) are very effective in blood cancers, but do not currently work well in other cancers. This is due to the immune suppressing nature of the cancer environment. I propose to use strategies to overcome this by genetically reprogramming the CAR T cells to be resistant to suppression by the cancer and therefore be more effective.
The Role Of Co-signalling Receptors In Cytotoxic Lymphocyte Activity During Infection And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$739,657.00
Summary
Cytotoxic lymphocytes (CLs) are immune cells that detect and kill cancer cells. CLs recognise ‘stress’ proteins on cancer cells through specialised receptors, and this provides the signal for them to kill. However, some cancer cells, such as leukemic cells, can interfere with this recognition to avoid killing by immune cells. This project will investigate the mechanism of recognition and killing of cancer cells by CLs, using both mouse models and cells from patients with acute 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.
Type 1 diabetes (T1D) is a major chronic disease affecting over 100,000 Australians. Its treatment and complications impose a significant burden on affected individuals and their families and on the health system. T1D occurs when the immune system attacks insulin-producing cells in the islet cells of the pancreas. The team has developed ways to identify at-risk people, defined immune and genetic causes of T1D and is undertaking prevention trials and Australia's first islet transplant program. Th ....Type 1 diabetes (T1D) is a major chronic disease affecting over 100,000 Australians. Its treatment and complications impose a significant burden on affected individuals and their families and on the health system. T1D occurs when the immune system attacks insulin-producing cells in the islet cells of the pancreas. The team has developed ways to identify at-risk people, defined immune and genetic causes of T1D and is undertaking prevention trials and Australia's first islet transplant program. Their multidisciplinary research is taking us closer to the prevention and cure of T1D.Read moreRead less
An Integrated Approach For The Efffective Adoptive Immunotherapy Of Cancer
Funder
National Health and Medical Research Council
Funding Amount
$468,119.00
Summary
Killer T lymphocytes can penetrate tumors and their transfer into cancer patients has demonstrated some encouraging results, but this form of immunotherapy remain ineffective in most cancer patients. We propose to improve the tumor trafficking and anti-tumor activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells. The outcomes of this project will validate this novel approach for treatment of cancer patients.
The Relationship Between Cancer Surgery, Lymph Nodes, T Cells And Immunotherapy.
Funder
National Health and Medical Research Council
Funding Amount
$960,585.00
Summary
Cancer treatment involves surgery for millions of patients annually, however, many patients do relapse. Surgery often involves removal of cancer-associated lymph nodes at the site. To improve surgical outcomes new immunotherapy strategies aim to activate the patients’ immune cells to eradicate tumours. However the main repository for these immune cells is in the very lymph tissue removed at surgery. This project will investigate the role of remaining lymph nodes in patient recovery/response.
Investigating The Anti-tumour Efficacy And On Target Toxicity Of Gene-modified T Cell Therapy In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$337,614.00
Summary
White blood cells from cancer patients can be modified in the laboratory to react against tumours. Although these cells can induce cancer regression when given back to the patient, these cells can often cause associated pathology. In this study we propose to fully investigate the limits of this type of therapy for mediating anti-tumour responses and potential toxicity in mouse models that closely recapitulate the human setting. These studies will lead to a more effective therapy for patients.
Utilization Of Gene-engineered T Cells For Enhancing Cancer Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$761,656.00
Summary
Killer T lymphocytes can penetrate tumours and their transfer into cancer patients has demonstrated some encouraging results, but this form of therapy and other approaches including vaccination remain ineffective in most cancer patients. In this project, we propose to improve the tumour trafficking and anti-tumour activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells, whilst minimizing toxicity to normal tissue.
New Strategies For Enhancing Chimeric Antigen Receptor (CAR) T Cell Therapy For Cancer
Funder
National Health and Medical Research Council
Funding Amount
$849,540.00
Summary
The role of the immune system in cancer is now recognised as highly important, highlighted by the success of immunotherapy in patients. Yet many patients fail to respond to this form of treatment due to low frequency of lymphocytes present at the tumor site. A new form of immunotherapy involving transfer of gene-modified lymphocytes is a potential way to overcome this problem. This project will explore new strategies to enhance the utility of this approach against blood and solid cancers.