Growth Regulatory Transcriptional Networks And Novel Therapies In Vascular Pathobiology
Funder
National Health and Medical Research Council
Funding Amount
$576,760.00
Summary
Cardiovascular disease and cancer together account for the majority of all deaths. Underpinning both these conditions are cellular and molecular changes in our blood vessels. This Fellowship will enable Professor Khachigian to enhance our understanding of fundamental mechanisms regulating the pathogenesis of vascular disease, and by harnessing this new knowledge in preclinical and human trials, generate novel strategies to combat a range of diseases through strategic partnership, collaboration a ....Cardiovascular disease and cancer together account for the majority of all deaths. Underpinning both these conditions are cellular and molecular changes in our blood vessels. This Fellowship will enable Professor Khachigian to enhance our understanding of fundamental mechanisms regulating the pathogenesis of vascular disease, and by harnessing this new knowledge in preclinical and human trials, generate novel strategies to combat a range of diseases through strategic partnership, collaboration and training.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100165
Funder
Australian Research Council
Funding Amount
$451,900.00
Summary
Engineering T cells to promote peripheral immunity. Tissue-resident memory T cells (TRM) are key for immune protection against infections and cancer. This has led to much interest in understanding how these immune cells develop, although elucidation of molecules that regulate TRM are still scarce. This project aims to (i) identify genetic drivers of TRM in peripheral organs and (ii) modulate TRM generation utilising state-of-the-art genetic engineering techniques. Expected outcomes include gener ....Engineering T cells to promote peripheral immunity. Tissue-resident memory T cells (TRM) are key for immune protection against infections and cancer. This has led to much interest in understanding how these immune cells develop, although elucidation of molecules that regulate TRM are still scarce. This project aims to (i) identify genetic drivers of TRM in peripheral organs and (ii) modulate TRM generation utilising state-of-the-art genetic engineering techniques. Expected outcomes include generating new knowledge that will contribute to the development of novel therapeutics against infectious disease and cancer, together with the benefit of promoting national and international collaboration with the ultimate goal of improving health.Read moreRead less