Targeting Nerves In Tumours To Enhance Anti-cancer Immunity
Funder
National Health and Medical Research Council
Funding Amount
$1,090,190.00
Summary
The cancer journey is an incredibly stressful experience for patients. We discovered that stress stops immune cells and helps cancer spread. The goal of this study is to reveal how stress signals alter anti-cancer immunity and impacts cancer treatments. We will use elegant tools from neuroscience and immunology to define if blocking stress helps the immune cells that kill cancer and explore how blocking stress can improve standard anti-cancer drugs, including chemotherapy and immunotherapy.
Harnessing Extracellular Matrix Remodelling By Cancer-Associated Fibroblasts To Increase T Cell Infiltration Of Solid Tumours
Funder
National Health and Medical Research Council
Funding Amount
$923,407.00
Summary
The ability of killer T cells to find and eliminate tumour cells is the basis for adoptive transfer immunotherapies, which thus far only work well with blood-borne cancers. There is limited success with solid tumours, which T cells do not readily infiltrate, notably because of remodelling by fibroblasts. We have discovered that T cells migrate in tunnels dug in the tumour matrix by fibroblasts. Here, we will harness this discovery to improve tumour infiltration and rejection of solid tumours.
Repurposing Thalidomide Derivatives To Augment Cancer Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$1,154,196.00
Summary
Immunotherapies are a revolutionary approach for cancer treatment, but most people with cancer do not respond to therapy. We have identified a new set of molecular switches that shutdown immune function and limit responsiveness to existing immunotherapies. Importantly, we have found a class of approved drugs that can block these immune 'off switches'. This proposal will test if these drugs could be repurposed as a novel treatment to amplify the efficacy of existing immunotherapies.