Understanding the immune response is proving extremely complex and promising results for disease treatments from animal models are often difficult to translate to new clinical therapies. My research is unearthing weaknesses in our current knowledge of the immune system and seeking to replace them with a foundation that can exploit new developments in computer modelling and systems biology. In this way I aim to rationally manipulate the immune response.
Understanding the immune response is proving extremely complex and promising results for disease treatments from animal models are often difficult to translate to new clinical therapies. My research is unearthing weaknesses in our current knowledge of the immune system and seeking to replace them with a foundation that can exploit new developments in computer modelling and systems biology. In this way I aim to rationally manipulate the immune response.
I am a molecular-cell biologist investigating the genetic control of lymphocyte differentiation. I study the mechanisms of action of transcription factors expressed specifically in B cells that regulate B lymphocyte specialisation and function, that determine the ability of mature B cells to respond to signals from other cells or from invading pathogens, and that enable the differentiation of antibody-secreting cells, the effectors of the B cell lineage. I lead the commercialisation efforts of o ....I am a molecular-cell biologist investigating the genetic control of lymphocyte differentiation. I study the mechanisms of action of transcription factors expressed specifically in B cells that regulate B lymphocyte specialisation and function, that determine the ability of mature B cells to respond to signals from other cells or from invading pathogens, and that enable the differentiation of antibody-secreting cells, the effectors of the B cell lineage. I lead the commercialisation efforts of our research Program.Read moreRead less
Regulation Of Leukocyte Recruitment In Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$686,656.00
Summary
In inflammatory diseases such as asthma, arthritis and atherosclerosis, white blood cells enter affected tissues causing inflammation and tissue destruction. This research will investigate the processes whereby white blood cells enter affected tissues, particularly how they exit the circulation, and migrate throughout tissues during inflammatory responses. An improved understanding of this process may identify new ways of interfering with the disease process in various inflammatory diseases.