Understanding Immunosuppressive Pathways In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$419,178.00
Summary
Cancer-induced immune suppression is a major obstacle to the effective treatment of many cancers. Suppression can be mediated by cells of the immune system, or cancers themselves. My project aims to investigate 3 suppressive pathways and determine their hierarchy in different mouse models of cancer using mouse genetics and antibody-based treatment approaches. Understanding these processes ongoing in the cancer environment will allow the design of more effective cancer therapies.
Understanding And Modulating The Human Immune System
Funder
National Health and Medical Research Council
Funding Amount
$470,144.00
Summary
T cells are the sentinels of our immune system continually scanning our tissue for abnormalities and eliminating threats in many forms. They are our second and last line of defence against microorganisms and cancer. Unfortunately, T cells can also cause harm through accidental crossreactvity or overzealous function. My work is directed at understanding how T cells work and how they can be controlled using drugs and gene therapy. If we can ‘tune’ the power of this master immune lineage we can unl
Understanding The Mechanisms Of Action Of The ISCOMATRIX Adjuvant For The Development Of Human Vaccines
Funder
National Health and Medical Research Council
Funding Amount
$401,361.00
Summary
CSL Limited, an Australian owned global biopharmaceutical company, is developing the ISCOMATRIX (IMX) adjuvant for vaccines to prevent and treat serious human disease of global concern (e.g. cancer, pandemic flu, HPV, HCV). This study will identify the mechanisms of action of IMX in generating strong cellular immunity, how to enhance it further by combining with other immuno-modulators so as to develop novel IMX vaccines for the treatment of established cancer and persistent viral infections.
Brown fat protects animals against obesity and diabetes. Humans with abundant brown fat are metabolically healthy. Identification of medication that boosts brown fat function may lead to novel treatment of metabolic disorders. This proposal will examine the role of such a medication, which is modeled on a factor (called FGF21) released from brown fat. The project will also search for other factors released by human brown fat, which may become future targets of obesity treatment.
Investigating CD4+ T Helper Cell Differentiation During Blood-stage Plasmodium Infection
Funder
National Health and Medical Research Council
Funding Amount
$408,388.00
Summary
Some infections tend to afflict us only once, e.g. chickenpox, because our bodies develop immunity to these microbes relatively easily. In contrast, it takes many infections to develop immunity to the malaria parasite, because our immune systems seem to respond inefficiently to it. My work will improve our understanding of how the immune system is poorly activated during malaria, and may provide new ideas for boosting the immune system in response to malaria or indeed other infections.