Inflammatory processes are normally regarded as being initiated and maintained through the activities of white blood cell macrophages. We propose to explore the role of lymphocyte delivery of protease molecules termed granzymes in inflammation. Our preliminary data has demonstrated a novel paradigm involving amplification of septic shock through the activity of granzymes. We now wish to exlore these interactions at a cellular and biochemical level as a means to better understand inflammation.
Regulation Of Perforin And Granzyme Expression In The Primary Cytolytic T Lymphocyte Response
Funder
National Health and Medical Research Council
Funding Amount
$756,000.00
Summary
The white blood cells known as cytolytic T lymphocytes (CTL) play important roles in elimination of some viruses, bacteria and tumours. Many vaccines and new therapies to prevent or control infections and cancer therefore seek to improve the production and activities of CTL. CTL kill infected cells and tumours by releasing packets of toxic molecules, including the pore-forming protein perforin and enzymes known as granzymes. However, while the roles of perforin and one granzyme, granzyme B, in c ....The white blood cells known as cytolytic T lymphocytes (CTL) play important roles in elimination of some viruses, bacteria and tumours. Many vaccines and new therapies to prevent or control infections and cancer therefore seek to improve the production and activities of CTL. CTL kill infected cells and tumours by releasing packets of toxic molecules, including the pore-forming protein perforin and enzymes known as granzymes. However, while the roles of perforin and one granzyme, granzyme B, in cell killing are now quite well understood, little is known about the other granzymes and how they contribute to immune protection. We have recently discovered that production of perforin and the three most prominent granzymes (A, B and C) can be separately controlled and that they are produced in different levels in different types of immune response. This suggests that they may each serve a different purpose and are therefore required in different amounts depending on the nature of the immune challenge. We have also found that an important hormone of the immune system, interleukin 4, has a profound effect on CTL, preventing their production of perforin and granzymes B and C and hence limiting their ability to kill target cells. In this project we plan a comprehensive analysis of perforin and granzyme production by CTL in response to different signals under controlled conditions in cell culture, and in response to different types of immune challenge in mice. We will also explore how interleukin 4 inhibits perforin and granzyme production and whether this has an impact on the effectiveness of the immune response. Mice in which one or more of the genes coding for perforin and granzymes has been damaged will be used to investigate how the absence of these molecules affects the immune response. We anticipate that these studies will suggest new strategies to improve therapeutic CTL induction by regulating perforin and granzyme production.Read moreRead less