Inhibition Of Alloreactivity By Modulation Of Antigen Presenting Cells
Funder
National Health and Medical Research Council
Funding Amount
$504,097.00
Summary
Bone marrow transplantation (BMT) is the most effect treatment for a number of conditions, especially leukemia. Graft versus host disease (GVHD) is a complication of BMT and results in the death of up to 50% of transplant recipients. GVHD occurs when the newly transplanted immune system recognizes the recipient as foreign and mounts and immune reponse against the patients tissues. These studies will focus on identifying and understanding the function of the immune cells which drive GVHD.
The Role Of Dendritic Cells In Graft-versus-host Disease After Allogeneic Stem Cell Transplantation.
Funder
National Health and Medical Research Council
Funding Amount
$317,633.00
Summary
Allogeneic bone marrow transplantation (BMT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. Graft-versus-Host Disease (GVHD) ocurrs when the newly transplanted bone marrow (which includes the immune system) recognises the transplant recipient as foreign and mounts an immune attack against patient tissues. GVHD is the major complication of BMT and is responsible for the death of up to half of the patients who receive this proced ....Allogeneic bone marrow transplantation (BMT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. Graft-versus-Host Disease (GVHD) ocurrs when the newly transplanted bone marrow (which includes the immune system) recognises the transplant recipient as foreign and mounts an immune attack against patient tissues. GVHD is the major complication of BMT and is responsible for the death of up to half of the patients who receive this procedure. Research to date by Dr Hill and colleages has provided substantial detail on how and why this process occurs. This information has led to a number of advances in the field which are already improving patient survival after BMT. This includes a new type of bone marrow transplantation that uses a naturally ocurring growth factor (called a cytokine) to allow the collection of immature bone marrow cells from the blood of transplant donors. The transplantation of these cells rather than bone marrow appears to reduce the chance of dying during BMT and also improves the cure rates from the underlying leukemia. In addition, Dr Hill has developed a novel method for preventing GVHD using different types of naturally ocurring growth factors called cytokine shields that help protect patient tissue from attack by the immune system. It has recently become clear that the immune system is directed by a subtype of white cells called dendritic cells and Professor Hart at the Mater Medical Research Institute has been a pioneer in this field. As initiators of the immune system it is likely that dendritic cells play a pivotal role in GVHD and Dr Hill and Prof Hart at the Mater Medical Research Institute will study DC within the context of Dr Hills newly developed therapies with the aim of further understanding the processes of GVHD. This work will allow manipulation of these cells during BMT in order to improve patient survival.Read moreRead less
Bone marrow transplantation (BMT) is the most effect treatment for a number of conditions, especially leukemia. Graft versus host disease (GVHD) is a complication of BMT and results in the death of up to 50% of transplant recipients. GVHD occurs when the newly transplanted immune system recognizes the recipient as foreign and mounts and immune reponse against the patients tissues. These studies will focus on identifying and understanding the function of the immune cells which drive GVHD.
Approaches To Allogeneic Chimerism For The Induction Of Transplantation Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
All patients with organ failure who receive a transplant require lifelong immunosuppressive medications to prevent the body from rejecting the foreign tissue. Indefinite immunosuppressive therapy is associated with significant side-effects which include infections and cancers. In addition, long-term loss of the transplants due to slow rejection (chronic rejection) remains high. Achieving a state of immunological tolerance in which transplanted tissue is regarded as self, but reactivity to all ot ....All patients with organ failure who receive a transplant require lifelong immunosuppressive medications to prevent the body from rejecting the foreign tissue. Indefinite immunosuppressive therapy is associated with significant side-effects which include infections and cancers. In addition, long-term loss of the transplants due to slow rejection (chronic rejection) remains high. Achieving a state of immunological tolerance in which transplanted tissue is regarded as self, but reactivity to all other foreign tissues (e.g. harmful viruses, bacteria) remain normal, would solve all these problems. Tolerance would eliminate the need for immunosuppressive medications and prevent rejection of transplanted organs. The production of mixed bone marrow chimerism is a potent method of inducing tolerance. Chimerism is a state in which bone marrow tissue from two genetically different individuals coexists in one person. This can be achieved by bone marrow transplantation from a specific donor, and if chimerism is achieved, the recipient will accept all tissues from the bone marrow donor without the need for ongoing immunosuppressive therapy. This study will attempt to examine the use of different therapeutic reagents (e.g. antibodies alone or antibodies linked to idarubicin, a drug which prevent cells dividing) to develop safe protocols for the production of bone marrow chimerism and tolerance for routine clinical use in humans. The study will also examine different cellular components of the donor bone marrow which may induce tolerance.Read moreRead less
Cloning Of Human NK Cells And Macrophages Carbohydrate Receptors
Funder
National Health and Medical Research Council
Funding Amount
$489,750.00
Summary
Lymphocytes, also known as white blood cells, are important for the well being of all individuals as these are the cells which fight infection by microorganisms. The lymphocyte gets its information about enviroment and communicates with other cells using molecules on the cell surface. We are examining a group of molecules found on the surface of different lymphocytes which bind different sugars, and also to characterised new cell surface molecules that interact with carbohydrates. These studies ....Lymphocytes, also known as white blood cells, are important for the well being of all individuals as these are the cells which fight infection by microorganisms. The lymphocyte gets its information about enviroment and communicates with other cells using molecules on the cell surface. We are examining a group of molecules found on the surface of different lymphocytes which bind different sugars, and also to characterised new cell surface molecules that interact with carbohydrates. These studies will examine the structure of the the molecules that interact with with sugars, in order to understand how these give messages to the lymphocyte to trigger various functions that these cell perform in the immune response. We will isolate the genes for these and study their function in greater detail. The cell surface carbohydrate receptors represents several different families of molecules, it is highly likely that these have important roles in the immune response. The potential significance of studying these lymphocyte cell surface molecules is in defining the functional properties of these molecules, the results of which will give us novel insights into the molecular mechanisms involved in the generation of immune responses, the mechanism of immuno deficiency and autoimmunity.Read moreRead less
Molecular Cloning And Expression Of Cytokine Genes Related To Induction Of Allograft Transplantation Tolerance In Rats
Funder
National Health and Medical Research Council
Funding Amount
$212,371.00
Summary
Cytokines are soluble proteins produced by leucocytes, and in many cases other cell types, which act as chemical communicators between cells, but not as effector molecules in their own right. Most of the cytokines are growth or differentiation factors and they generally act on cells within the haematopoietic system. In this grant application we will focus on the production of cytokines and antibodies to these cytokines, that are likely to be important in organ transplantation tolerance or organ ....Cytokines are soluble proteins produced by leucocytes, and in many cases other cell types, which act as chemical communicators between cells, but not as effector molecules in their own right. Most of the cytokines are growth or differentiation factors and they generally act on cells within the haematopoietic system. In this grant application we will focus on the production of cytokines and antibodies to these cytokines, that are likely to be important in organ transplantation tolerance or organ rejection. We would like to synthesize these cytokines using molecular biological techniques. These biological materials will be used to treat animals and study their biological effect on transplanted graft survival. If the cytokine treatment does prolong graft survival, what is the mechanisms involved in the immune responses will be further studied. Our aim is to develop strategies that couold be applied to help pateints with organ transplants and receive most specific therapies.Read moreRead less