To Biochemically Trick P-Glycoprotein (Pgp) To Target Resistance Via Lysosomal Pgp
Funder
National Health and Medical Research Council
Funding Amount
$603,848.00
Summary
We have discovered an innovative biochemical strategy whereby our novel compounds exploit and trick a part of the detoxification machinery, that is the transporter, P-glycoprotein, to specifically kill drug resistant cancer cells. Herein, we take advantage of this biochemical mechanism to design novel and safe drugs to selectively target resistant tumours.
Squamous cell carcinoma of the skin is extremely common in Australia, resulting in disfiguring surgeries and deaths. Although cumulative sun exposure is important, some people are very susceptible, and we do not know why. This project hinges on the notion that skin cancer is a complex (many genes involved). We will utilize novel systems to harness this complexity to understand why some people are resistant and others very susceptible so as to design appropriate control measures and treatments.
Trauma-focused CBT & Exercise For Chronic Whiplash: Addressing All Aspects Of A Chronic Condition
Funder
National Health and Medical Research Council
Funding Amount
$673,562.00
Summary
Chronic pain following whiplash injury is common and incurs substantial personal and economic costs. There are few effective treatments available. Recent research has shown that many people with chronic whiplash also have symptoms of posttraumatic stress. This study will investigate whether combining an intervention aimed at decreasing posttraumatic stress with exercise will decrease pain and disability in people with chronic whiplash
A Novel Role For The IL-2 Pathway In Type-1-diabetes.
Funder
National Health and Medical Research Council
Funding Amount
$548,548.00
Summary
Genes encoding IL-2 and its receptor are strongly linked to susceptibility to multiple autoimmune diseases, including type-1-diabetes. Despite the importance of this pathway in the immune system, it is not yet understood how the associated genes affect disease. In this study, a novel function for IL-2 expression by dendritic cells in normal self-tolerance is investigated. The impacts of dendritic cell produced IL-2 expression and linkage to autoimmunity will be elucidated in both mouse and man.